CN101310020A - Methods for genetic control of insect infestations in plantsand compositions thereof - Google Patents

Methods for genetic control of insect infestations in plantsand compositions thereof Download PDF

Info

Publication number
CN101310020A
CN101310020A CNA2006800428817A CN200680042881A CN101310020A CN 101310020 A CN101310020 A CN 101310020A CN A2006800428817 A CNA2006800428817 A CN A2006800428817A CN 200680042881 A CN200680042881 A CN 200680042881A CN 101310020 A CN101310020 A CN 101310020A
Authority
CN
China
Prior art keywords
insect
sequence
polynucleotide
rnai
plant
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CNA2006800428817A
Other languages
Chinese (zh)
Inventor
J·A·鲍姆
C·A·卡亚科布
P·费尔德曼
G·R·赫克
I·努伦
G·普莱丁克
T·T·沃恩
W·马德莱因
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Devgen NV
Monsanto Technology LLC
Original Assignee
Monsanto Technology LLC
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Monsanto Technology LLC filed Critical Monsanto Technology LLC
Publication of CN101310020A publication Critical patent/CN101310020A/en
Pending legal-status Critical Current

Links

Images

Classifications

    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N15/00Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
    • C12N15/09Recombinant DNA-technology
    • C12N15/63Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
    • C12N15/79Vectors or expression systems specially adapted for eukaryotic hosts
    • C12N15/82Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
    • C12N15/8241Phenotypically and genetically modified plants via recombinant DNA technology
    • C12N15/8261Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield
    • C12N15/8271Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance
    • C12N15/8279Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance
    • C12N15/8286Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance for insect resistance
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07HSUGARS; DERIVATIVES THEREOF; NUCLEOSIDES; NUCLEOTIDES; NUCLEIC ACIDS
    • C07H21/00Compounds containing two or more mononucleotide units having separate phosphate or polyphosphate groups linked by saccharide radicals of nucleoside groups, e.g. nucleic acids
    • C07H21/04Compounds containing two or more mononucleotide units having separate phosphate or polyphosphate groups linked by saccharide radicals of nucleoside groups, e.g. nucleic acids with deoxyribosyl as saccharide radical
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K14/00Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
    • C07K14/435Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
    • C07K14/43504Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from invertebrates
    • C07K14/43536Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from invertebrates from worms
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K14/00Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
    • C07K14/435Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
    • C07K14/43504Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from invertebrates
    • C07K14/43563Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from invertebrates from insects
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N15/00Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
    • C12N15/09Recombinant DNA-technology
    • C12N15/11DNA or RNA fragments; Modified forms thereof; Non-coding nucleic acids having a biological activity
    • C12N15/113Non-coding nucleic acids modulating the expression of genes, e.g. antisense oligonucleotides; Antisense DNA or RNA; Triplex- forming oligonucleotides; Catalytic nucleic acids, e.g. ribozymes; Nucleic acids used in co-suppression or gene silencing
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N15/00Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
    • C12N15/09Recombinant DNA-technology
    • C12N15/63Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
    • C12N15/79Vectors or expression systems specially adapted for eukaryotic hosts
    • C12N15/82Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
    • C12N15/8216Methods for controlling, regulating or enhancing expression of transgenes in plant cells
    • C12N15/8218Antisense, co-suppression, viral induced gene silencing [VIGS], post-transcriptional induced gene silencing [PTGS]
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N15/00Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
    • C12N15/09Recombinant DNA-technology
    • C12N15/63Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
    • C12N15/79Vectors or expression systems specially adapted for eukaryotic hosts
    • C12N15/82Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
    • C12N15/8241Phenotypically and genetically modified plants via recombinant DNA technology
    • C12N15/8261Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield
    • C12N15/8271Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance
    • C12N15/8279Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance
    • C12N15/8282Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance for fungal resistance
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N15/00Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
    • C12N15/09Recombinant DNA-technology
    • C12N15/63Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
    • C12N15/79Vectors or expression systems specially adapted for eukaryotic hosts
    • C12N15/82Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
    • C12N15/8241Phenotypically and genetically modified plants via recombinant DNA technology
    • C12N15/8261Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield
    • C12N15/8271Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance
    • C12N15/8279Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance
    • C12N15/8285Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance for nematode resistance
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/146Genetically Modified [GMO] plants, e.g. transgenic plants

Landscapes

  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Genetics & Genomics (AREA)
  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Organic Chemistry (AREA)
  • Molecular Biology (AREA)
  • Zoology (AREA)
  • Biotechnology (AREA)
  • Biomedical Technology (AREA)
  • General Engineering & Computer Science (AREA)
  • Bioinformatics & Cheminformatics (AREA)
  • Wood Science & Technology (AREA)
  • Biochemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • Biophysics (AREA)
  • Microbiology (AREA)
  • Plant Pathology (AREA)
  • Physics & Mathematics (AREA)
  • Cell Biology (AREA)
  • Tropical Medicine & Parasitology (AREA)
  • Insects & Arthropods (AREA)
  • Medicinal Chemistry (AREA)
  • Proteomics, Peptides & Aminoacids (AREA)
  • Gastroenterology & Hepatology (AREA)
  • Toxicology (AREA)
  • Pest Control & Pesticides (AREA)
  • Virology (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)
  • Micro-Organisms Or Cultivation Processes Thereof (AREA)
  • Catching Or Destruction (AREA)
  • Breeding Of Plants And Reproduction By Means Of Culturing (AREA)
  • Medicines Containing Plant Substances (AREA)

Abstract

The present invention relates to methods for controlling pest infestation using double stranded RNA molecules. The invention provides methods for producing transgenic cells expressing the double stranded RNA molecules, as well as compositions and commodity products containing or treated with such molecules.

Description

Be used for method and composition at plant Genetic Control insect infestations
The sequence table of submitting on CD is attached to herein by reference
A CD (copy 1) with and xcopy (copy 2) on submitted sequence table to, each file is all set up on September 15th, 2006, all contains a 669kb file of called after " MNDE002.APP.TXT. ".Be attached to herein by reference in this content that contains on CD.
Right of priority
The application requires the U.S. Provisional Application series No.60/718 of submission on September 16th, 2005, and 034 right of priority, this application are quoted by integral body and be attached to herein.
Background of invention
1. invention field
Generally speaking, the present invention relates to the Genetic Control of insect invasion and attack.More specifically, prevent after the present invention the present invention relates to be used for transcribing or suppress the target encoding sequence in the expression of insect cell so that the recombinant DNA technology of insect protective effect to be provided.
2. the description of association area
The environment of human survival has been full of the insect invasion and attack.Insect comprises: insect, spider, Crustacean, fungi, bacterium, virus, nematode, flatworm, roundworm, pinworm, hookworm, tapeworm, taper worm, schistosomicide, horse botfly, flea, flat lice, mite, lice etc., they are ubiquitous in the human environment, have used the invasion and attack of these insects of multiple means attempt control.The composition that is used to control micro pest (for example bacterium, fungi and virus) invasion and attack has been provided as antibiotic compound, antiviral composition and antifungal composition form.(for example be used for control than major pest, nematode, flatworm, roundworm, pinworm, heartworm, tapeworm, taper worm, schistosomicide etc.) composition of invasion and attack typically exists as the form of chemical composition, they can be applied to the material surface that the insect invasion and attack appear in known meeting, are perhaps absorbed by affected animal with forms such as pill, powder, tablet, ointment or capsules.The present invention relates to provides: than composition known in the art, be used for improving one's methods of Pest Control invasion and attack.
Commercial agricultural farm crop are the target of attack of insect normally.In the past in the many decades, be used for the more efficiently method and composition of controlling plant insect infestations, had some substantial progress about exploitation.Chemical insecticide is very effective for eradicating the insect invasion and attack.But, use chemical insecticide that multiple shortcoming is arranged.Chemical insecticide is nonselective.People's intended application chemical insecticide is controlled deleterious invertebrate pests concerning multiple kinds of crops and other plant.But in default of selectivity, chemical insecticide also can apply its effect for non-target animals, and, answer exhausted for some time at chemical insecticide, can make the field barren usually.Chemical insecticide continues to be present in the environment, and is very slow in usually metabolism, if fully not by metabolic words.They can accumulate in food chain, particularly in the food chain of high zoophagous animal.The accumulation of these chemical insecticides causes the development of these reagent resistances and the high-end species of ladder that cause evolving, and described sterilant is had an effect as mutagenic compound and/or carcinogen, causes irreversible harmful genetic modification usually.Therefore people need be used for controlling or eradicate the insect infestations on plant or the plant strongly to the method for environment friendliness, promptly, optionally, environment inert, non-lasting reservation and biodegradable, and can be the method that is used for the pest resistance management system well.
The composition that comprises bacillus thuringiensis (B.t.) can obtain by commercial sources, and it has used above 30 years as environmentally safe and acceptable insecticide.The effect of insect extremely of Bt bacterium is the proteinic result of the proprietary generation of these bacteriums, described protein can not continue to be present in the environment, and, the selectivity that has height for affected target species, only by absorbed its effect that applies by the target insect, they have demonstrated the innocuousness to environment and other non-target biology (comprising the mankind).Contain the transgenic plant that kill proteic one or more genes of insect B.t. of encoding and also can obtain in this area, their significant effective are in the invasion and attack of control harmful insect.The substantive result who use to express the recombinant plant of Bt insecticidal protein is, in the area of using this type of transgenic crop, is applied to environment and obviously reduces with the amount of the chemical insecticide of control farm crop field insect invasion and attack.The minimizing that chemical insecticide is used makes soil more clean, and makes from the soil flow also cleaning more of water in streams, rivers, pond and lake towards periphery.Except that these environmental benefits, the farm crop field of the anti-insect crop growth of transgenosis, the quantity of favourable insect has remarkable increase, and this is because the cause that the use of chemical insecticide reduces.
Reported the antisense method and composition in this area, their are believed that can pass through single stranded RNA molecule (in theory, can in vivo with height complementary sense strand RNA molecular hybridization) synthetic applies its effect.Antisense technology is difficult to use in a lot of systems, and this has three major causes.At first, the antisense sequences instability of expressing in the transformant.The second, the unstable of the antisense sequences of expressing in the transformant is thereupon to giving this sequence the host, cell type or the biosystem that are delivered to away from transgenic cell to cause difficulty.The 3rd, pass the difficulty that runs into along with sending of unstable and antisense sequences and also made difficulty for following attempt, described attempt is: provide in the reconstitution cell inside of this antisense sequences of coding and can effectively regulate the dosage that target has the sense nucleotide sequence expression level.
The technology that is used for regulatory gene expression level in cell, tissue or biology rarely has improvement, especially, lacks the technology that is used for postponing, suppressing or reduce by the use recombinant DNA technology development of specific gene expression.In addition, as the result of the Unpredictability of these means, be not used in eucaryon or prokaryotic organism, regulate the specific gene expression level, the obtainable means of commercial sources.
Showed the inhibition of in various pests, specific gene being carried out double chain RNA mediate in the past.A kind of fruit bat, promptly in the drosophila melanogaster (Drosophila melanogaster) to be used for genetically controlled means detection (Kennerdell and Carthew, 1998 of dsRNA mediation in addition; Kennerdell and Carthew, 2000).Kennerdell and Carthew (1998) have described a kind of method, are used to send pass relate to the dsRNA that produces transgenic insect (it expresses double stranded rna molecule) or the dsRNA injection of solution is expelled in the egg capsule in insect body or before fetal development.
Show before the researchist, feed to raise by the solution that will contain two strands or siRNA molecule and be dipped in this solution, and, can in nematode, obtain the gene inhibition of double chain RNA mediate by injection dsRNA molecule to nematode or with nematode.People such as Rajagopal (2002) have described the trial of following failure: raise the solution that contains the dsRNA that is specific to target gene by feeding, or by larva being dipped in this solution, the native gene that suppresses harmful insect prodenia litura (Spodoptera litura) larva, but, after with little applicator (micro applicator) dsRNA being expelled to the hemolymph of five-age larva, people such as Rajagopal have but successfully obtained inhibition.Recently, people (2006) such as Yadav has reported that the dsRNA of the host's preparation that produces can prevent the plant infection nematode in plant.Similarly, U.S. Patent Application Publication No.2003/0150017 has predictably described and has been used to use the preferred gene seat that send the dsRNA that is delivered to larva to suppress lepidopterous larvae bollworm (Helicoverpaarmigera), described send to pass by having absorbed be converted into the plant that produces dsRNA and realize.The CRW specificity dsRNA that provides in the food of corn rootworm (CRW) at crucial CRW gene has been provided WO 2005/110068.Provide dsRNA in external and plant in CRW food, the result is that the failure to thrive of CRW larva after taking in this food hinders or is killed, and some different genes have been proved this effect.
Therefore, need to identify effective nucleotide sequence, described sequence be used for by prevent, genetic expression that delay or alternate manner reduce specific coleopteran pest and regulatory gene is expressed improves one's methods, the purpose of this method is the Pest Control invasion and attack or induces new phenotypic character.
Summary of the invention
On the one hand, the invention provides the method that suppresses expression of target gene in the coleopteran pest.In certain embodiments, this method comprises regulates or suppresses one or more target gene expression in the coleopteran pest, and described method can cause ingesting, grows, growth, breeding and/or infectivity stop, and finally causes insect death.Described method comprises: with the double-stranded RNA (dsRNA) of stabilization, (for example comprise its modified forms, siRNA (siRNA) sequence) (for example partly or entirely be incorporated into coleopteron cells in vivo or extracellular environment, midgut) in, wherein dsRNA enters into cell, and suppress at least a or multiple target gene expression, and wherein this is suppressed at and has applied deleterious effects on the coleopteran pest.Method of the present invention and compositions related can being used for provide described herein one or more to comprise the composition of dsRNA molecule by the food insect, restriction or eliminate the invasion and attack of coleopteran pest on environment inside that any insect host, insect symbiote or insect exist or surface.This method is useful especially for preventing the attack of insect plant.In one embodiment, insect to be defined as the pH of Digestive tract be about 4.5 to about 9.5, about 5 to about 9, about 6 to about 7 and about pH 7.0.
On the other hand, the invention provides the Exemplary core acid composition, at least a portion homology of one or more natural acid sequences in itself and the target insect.In certain embodiments, insect is selected from chrysomelid species (Diabrotica sp.), comprise western corn rootworm (WCR, Diabrotica virgifera or Diabrotica virgifera virgifera), south corn rootworm (SCR, Diabroticaundecimpunctata howardi), zea mexicana rootworm (MCR, Diabrotica virgiferazea), Brazil corn rootworm (BZR, Diabrotica balteata, Diabrotica viridula, Diabrotica speciosa), northern corn rootworm (NCR, Diabrotica barberi), Diabroticaundecimpunctata; And the Colorado colorado potato bug (CPB, Leptinotarsadecemlineata), red flour beetle (RFB, Tribolium castaneum) and Mexico's beans first (Epilachna varivestis).In other embodiments, insect is selected from lepidopterous insects, comprise European corn borer (ECB, Ostrinia nubilalis), black cutworm (BCW, Agrotis ipsilon), maize army worm (CEW, Helicoverpa zea), autumn noctuid (FAW, Spodopterafrugiperda), boll weevil (BWV, Anthonomus grandis), silkworm (Bombyxmori) and maduca sexta (Manduca sexta), and dipteral insect, comprise drosophila melanogaster (Drosophila melanogaster), malarial mosquito (Anopheles gambiae) and Aedes aegypti (Aedes aegypti).The specific examples of described nucleic acid provided by the invention is shown in the SEQ ID NO:1-SEQ ID NO:906 in the appended sequence table.
On the other hand, the invention provides the method for the genetic expression that is used to suppress coleopteran pest such as corn rootworm or relevant species, this method is included at least a dsRNA molecule of transcribing from above-described nucleotide sequence, its at least one fragment and the complementation of the intracellular mRNA sequence of insect that the gene inhibition amount is provided in the food of insect.This method may further include death, the inhibition of ingesting of observing insect, is obstructed or stops.The dsRNA molecule that insect is ingested comprises its modified forms, as the siRNA molecule, can have about 80 with the RNA molecule of transcribing from the nucleotide sequence that is selected from SEQ ID NO:1-SEQ IDNO:906,81,82,83,84,85,86,87,88 89,90,91,92,93,94,95,96,97,98,99 or about 100% identity.In specific embodiments, nucleotide sequence can be selected from SEQ ID NO:697, SEQ IDNOs:813-819, SEQ ID NO:841 and SEQ ID NO:874.
Therefore, in another aspect of this invention, provide a component from the nucleotide sequence of purifying, shown in the SEQ ID NO:1-SEQ ID NO:906.The invention provides the dsRNA molecule of stabilization or the expression of one or more miRNA, be used for suppressing coleopteran pest from these sequences and fragment expression target gene.The dsRNA of stabilization, comprise that miRNA or siRNA molecule can comprise at least two encoding sequences, they have justice and antisense orientation to arrange with respect at least one promotor, the nucleotide sequence that wherein comprises sense strand and antisense strand is connected by the intervening sequence at least about about 1000 Nucleotide of 5-or links to each other, wherein sense strand can be different length with antisense strand, and any one shown in each sequence in wherein said two encoding sequences and the SEQ ID NO:1-SEQID NO:906 or a plurality of nucleotide sequence have at least 80% sequence identity, at least 90%, at least 95%, at least 98%, or 100% sequence identity.
The fragment or the concatermer of the nucleotide sequence that is selected from SEQ ID NO:1-SEQ ID NO:906 have been the present invention further provides.In specific embodiments, nucleotide sequence can comprise the fragment or the concatermer of the sequence that is selected from SEQID NO:697, SEQ ID NOs:813-819, SEQ ID NO:841 and SEQ ID NO:874.
When being expressed as dsRNA and offering insect, this fragment can be defined as and cause insect death, the inhibition of ingesting, is obstructed or stops.This fragment can for example comprise among the SEQ ID NO:1-SEQID NO:906 any one or a plurality of sequence or its complementary sequence at least about 19,21,23,25,40,60,80,100,125 or more a plurality of continuous nucleotide.The length that is used for the present invention's a kind of useful dna fragmentation is about 23 Nucleotide of about 19-, or about 100 Nucleotide of about 23-, about 2000 Nucleotide or more of as many as.Useful especially will be to comprise about 300 the dsRNA sequences with insect target sequence homologous Nucleotide of about 23-.The present invention also provides the Yeast Nucleic Acid of expressing from any described sequence, comprises dsRNA.Can be from select to be used for the sequence of expressing gene inhibitor from the single sequence construct of one or more target insects, and be used for the individual gene of one or more target insects of expression inhibiting or the RNA of gene family, or this dna sequence dna can be configured to mosaic from multiple dna sequence dna.
On the other hand, the invention provides the recombinant DNA construction body, it comprises the nucleic acid molecule of the dsRNA molecule described herein of encoding.Can form dsRNA by from having a chain of transcribing the dsRNA molecule at least about the nucleotide sequence of about 100% identity of 80%-with the nucleotide sequence that is selected from SEQ ID NO:1-SEQ IDNO:906.Described recombinant DNA construction body can be orientated as and can suppress the dsRNA molecule that endogenous target gene is expressed after the absorption in insect.This construct can comprise the optional nucleotide sequence of the present invention that is connected with the promoter sequence that works in host cell.Described promotor can be tissue-specific, and can for example be specific to the types of organization that attacked by insect.For example, under the situation of rootworm, may need to use provides preferred root expression promoter.
Nucleic acid construct of the present invention can comprise the nucleotide sequence that at least one non-natural exists, and it can be transcribed into the single stranded RNA that can form the dsRNA molecule in vivo by hybridization.Described dsRNA sequence self assembling, and can be provided in the food of coleopteran pest, to reach the inhibition that needs.
The recombinant DNA construction body can comprise two kinds of different non-natural sequences, when described sequence is expressed as the dsRNA sequence in vivo and is provided in the food of coleopteran pest, suppresses at least two kinds of different target genes expression in the coleopteran pest cell.In certain embodiments, in comprising cell with the inhibiting cell of insect or plant, produce at least 3,4,5,6,8 or 10 or more kinds of different dsRNAs.A plurality of constructs that described dsRNA can introduce from different transformation events are expressed, and maybe can introduce on the single nucleic acid molecule.Can be with single promotor or a plurality of promoter expression dsRNA.In one embodiment of the present invention, produce single dsRNA, its comprise with insect in a plurality of locus homologous nucleic acid.
On the other hand, the invention provides recombinant host cell, have at least one recombinant DNA sequence in its genome, this sequence is transcribed and is produced at least one dsRNA molecule, and this molecule works when coleopteran pest is taken in, and suppresses target gene expression in the insect.The dsRNA molecule can be by any nucleic acid encoding shown in this paper description and the sequence table.The present invention also provides the transformed plant cells that has at least one recombinant DNA sequence described herein in the genome.The transgenic plant that comprise described transformed plant cells also are provided, have comprised progeny plants, seed and the plant prod in any generation, they all comprise recombinant DNA.
Method and composition of the present invention can be applicable to any unifacial leaf and dicotyledons, and this depends on the coleopteran pest control of wanting.Especially, plant includes but not limited to: clover, dill (aneth), Apple, apricot, choke, rocket salad, asparagus, avocado, banana, barley, Kidney bean, beet, blackberry, blueberry, blueberry, cabbage, brussels sprouts, Caulis et Folium Brassicae capitatae, Corolla (canola), muskmelon, Radix Dauci Sativae, cassava, Cauliflower, celery, cherry, coriander, oranges and tangerines, the little oranges and tangerines of Ke Laimenshi, coffee, corn, cotton, cucumber, Pseudotsuga menziesii (Mirbel) Franco, eggplant, hare's-lettuce, wide leaf lettuce, eucalyptus, fennel, Fructus Fici, cucurbit, grape, shaddock, hami melon, yam bean, kiwi fruit, lettuce, leek, lemon, bitter orange, torch pine, mango, melon, mushroom, nut, oat, okra, onion, tangerine, decorate and use plant, pawpaw, parsley, pea, peach, peanut, pears, pepper, persimmon, pine tree, pineapple, plantain, Lee, pomegranate, white poplar, potato, pumpkin, Wen Bai, pine, witloof, radish, raspberry, paddy rice, naked barley, Chinese sorghum, the south pine, soybean, spinach, pumpkin, strawberry, sugar beet, sugarcane, Sunflower Receptacle, Ipomoea batatas, Styrax, mandarin orange, tea, tobacco, tomato, turf, trailing plant, watermelon, wheat, Chinese yam and Xiao Hu's melon plant.Therefore, the present invention also provides recombinant DNA sequence or its concatermer, fragment or the complementary sequence plant transformed shown in the SEQ ID NO:1-SEQ ID NO:906, and described sequence is transcribed and produced at least a dsRNA molecule that suppresses expression of target gene in the insect when coleopteran pest absorbs.In specific embodiments, recombinant DNA sequence can be selected from SEQ ID NO:697, SEQ ID NOs:813-819, SEQ IDNO:841 and SEQ ID NO:874 or its fragment, complementary sequence or concatermer.
The present invention also provides the combination of the method and composition that is used to control the coleopteran pest invasion and attack.A kind of means provide and have been used for protective plant and prevent dsRNA method insect infestations, as herein described, and one or more insecticides, and described insecticide shows the different feature of feature that is shown with the dsRNA method and composition.For example, can provide one or more Bt albumen in the food of insect pest, itself and this paper describe one or more dsRNA combinations.Be formulated as the composition of topical application, or the composition that dsRNA method and composition and Bt method and composition are combined that uses transgenic method to obtain, can produce synergistic effect, this be in the field of control insect infestations before the unknown.A kind of synergistic effect is that the required expression level of dsRNA or Bt albumen reduces.When being grouped together, every kind of agent for controlling noxious insect pests all only needs lower effective dose.Thinking that the Bt insecticidal protein has been set up enters the hole, the dsRNA molecule can more effectively penetrate into space away from insect gut by the described hole that enters, perhaps more effectively enter near the cell of damage that Bt albumen is set up, only need the Bt of less amount or the insect result extremely that dsRNA just can obtain to want thus, inhibition or the containment perhaps wanted to target insect target biological function.
Therefore, the invention provides a kind of composition, wherein contain two or more different sterilants, wherein every kind all poisonous to same insect or insect species, at least a this paper of comprising wherein describes dsRNA.In certain embodiments, second kind of sterilant can be selected from down group: potato tuber storage protein (patatin), bacillus thuringiensis insecticidal albumen, Xenorhabdus insecticidal protein, polished rod bacterium insecticidal protein, bacillus laterosporus insecticidal protein, Bacillus sphaericus insecticidal protein and xylogen.Bacillus thuringiensis insecticidal albumen can be any kind of in a large amount of insecticidal proteins, described insecticidal protein includes but not limited to: Cry1, Cry3, TIC851, CryET70, Cry22, TIC901, TIC1201, TIC407, TIC417, binary insecticidal protein CryET33 and CryET34, binary insecticidal protein CryET80 and CryET76, binary insecticidal protein TIC100 and TIC101, binary insecticidal protein PS149B1, the VIP insecticidal protein, TIC900 or associated protein, or the combination of insecticidal protein ET29 or ET37 and insecticidal protein TIC810 or TIC812, and the insect mosaic extremely of any aforementioned insecticidal protein.
The Yeast Nucleic Acid that provides in food can be provided among the artificial food, and this food preparation is used to satisfy the special nutrition requirement that insect keeps described food.Can replenish the RNA of insect manipulated variable in this food, this RNA is purifying from the expression system that separates, and absorbs through the inhibition level of activity after the food that replenishes with RNA composition or the definite insect of determining the insect manipulated variable.This food also can be the reconstitution cell that transforms with dna sequence dna, and described dna sequence dna makes up and is used to express reagent, RNA or gene inhibition agent.After insect absorbs one or more described transformants, observe the phenotype result who needs, show that this reagent suppresses the expression of the intracellular target nucleotide sequences of insect.
By the necessary albumen of gene codified that target suppresses, described proteic expectation function is selected from: muscle forms, the formation of neotonin, the adjusting of neotonin, ion are regulated and transhipment, the synthetic and transhipment of albumen, digestive ferment is synthetic, cell membrane potential keeps, and amino acid bio is synthetic, amino acid degradation, sperm forms, and pheromone is synthetic, the pheromone sensing, feeler forms, and wing forms, and leg forms, grow and differentiation, avette one-tenth, the larva maturation, digestive ferment forms, hemolymph is synthetic, the maintenance of hemolymph, neurotransmission, cell fission, energy metabolism, breathe unknown function, and apoptosis.
Another aspect of the present invention also provides the method that is used to improve the crop yield that the farm crop that are subjected to insect pest invasion and attack produce, and said method comprising the steps of: a) will comprise the polynucleotide of the sequence that is selected from SEQID NO:1-SEQ ID NO:906 or its complementary sequence or concatermer or fragment and introduce described crop plants; And b) cultivates described crop plants so that described polynucleotide are expressed, the ingesting and because the production loss that the insect invasion and attack cause of the expression inhibiting insect pest of wherein said polynucleotide.
In certain embodiments, the expression of polynucleotide produces the RNA molecule, and at least the first target gene in the insect pest of a part of described crop plants has been absorbed in its inhibition, wherein this target gene is exercised at least a household function that is selected from down group: insect ingests, insect viability, insect apoptosis, the differentiation of insect or any insect cell and growth, the sexual propagation of insect, muscle forms, muscle twitch, Muscle contraction, the formation of neotonin and/or minimizing, the adjusting of neotonin, ion is regulated and transhipment, the maintenance of cell membrane potential, and amino acid bio is synthetic, amino acid degradation, sperm forms, and pheromone is synthetic, the pheromone sensing, feeler forms, and wing forms, leg forms, avette one-tenth, larva maturation, digestive ferment forms, hemolymph is synthetic, and hemolymph keeps, neurotransmission, larval stage changes, and pupates, broken pupa, cell fission, energy metabolism is breathed, synthetic and the maintenance of cytoskeletal structure, nucleotide metabolism, nitrogen metabolism, water conservancy is used, water keeps, and sensory perception.
In other embodiments, insect pest is the corn rootworm insect, be selected from: Diabroticaundecimpunctata howardi (southern corn rootworm (SCR)), Diabrotica virgiferavirgifera (western corn rootworm (WCR)), Diabrotica barberi (northern corn rootworm (NCR)), Diabrotica virgifera zea (zea mexicana rootworm (MCR)), Diabroticabalteata (Brazilian corn rootworm (BZR)), Diabrotica viridula (Brazilian corn rootworm (BZR)) and Diabrotica speciosa (Brazilian corn rootworm (BZR)).
The method of the arid tolerance that improves the farm crop that produced by the crop plants that is subjected to the insect pest invasion and attack also is provided, and said method comprising the steps of: polynucleotide sequence or its fragment that a) will be selected from SEQ ID NO:1-SEQ ID NO:906 are introduced described crop plants; And b) cultivate described crop plants so that described polynucleotide are expressed, the expression inhibiting insect pest of wherein said polynucleotide ingest and because the arid tolerance that the insect invasion and attack cause is impaired.
Another aspect of the present invention further provides agriculture and has gone up and commercially important product and/or composition, include but not limited to, animal-feed, agricultural-food and be intended to as the human food that consumes or be used for the human composition that consumes and the product and the byproduct of agricultural-food include but not limited to Semen Maydis powder, hominy grits, corn steep liquor, Semen Maydis oil, W-Gum, puffed rice, corn-dodger, cereal etc.But these compositions can contain the nucleotide sequence shown in this paper of detection limit, therefore also can diagnose any transgenic event that contains this type of nucleotide sequence.These products are useful, and at least because they may derive from the farm crop that breed under the condition of still less sterilant and organophosphate, this is because they have mixed Nucleotide of the present invention and have been used for controlling the result of coleopteran pest in the invasion and attack of plant.This agricultural products and agricultural-food goods are to produce from the seed that is produced by transgenic plant, wherein, described transgenic plant expressed rna, described RNA is from one or more continuous nucleotides of the present invention, or the Nucleotide of one or more coleopteran pests and complementary sequence thereof.This agricultural products and agricultural-food goods also can be used for controlling the coleopteran pest of this agricultural products and agricultural-food goods, for example, surface powder weevil, because have the RNA that can suppress the insect gene in agricultural-food or agricultural-food goods, described RNA is that gene order shown in the present is expressed.
The method of producing described agricultural-food goods also is provided, comprise obtaining with comprising the sequence that is selected from SEQ IDNO:1-SEQ ID NO:906 or the polynucleotide plant transformed of its concatermer or fragment or complementary sequence, and prepare the agricultural-food goods from described plant or its part.In addition, another aspect of the present invention is the method for producing food or feed, comprise the polynucleotide or its fragment or the complementary sequence plant transformed that obtain with being selected from SEQ ID NO:1-SEQ ID NO:906, and prepare food or feed from described plant or its part.
The present invention also provides computer-readable medium, record one or more or its complementary sequence in the nucleotide sequence shown in the SEQ ID NO:1-SEQ ID NO:906 thereon, being used for a large amount of computer baseds uses, include but not limited to, DNA identity and similarity retrieval, protein identity and similarity retrieval, transcribe that stave is levied, comparison and artificial hybridization analysis between the genome.
The accompanying drawing summary
Fig. 1: the biological assay of the F1 maize plant incident that transforms and attack with western corn rootworm (WCR) with pMON98503 (SEQ ID NO:820).
Fig. 2: the biological assay of the F1 maize plant incident that transforms and attack with western corn rootworm (WCR) with the pMON98504 that comprises concatermer C1 (SEQ ID NO:821).
The schematic design of segmental selection of Fig. 3: Dv49 and Dv248 and Dv49-Dv248 concatermer C38.
Fig. 4: based on concatermer C38 synthetic dsRNAs F1-F13.
Fig. 5: DV49-DV248 concatermer 38 dose responses (fragment F1-F6).
Fig. 6: DV49-DV248 concatermer 38 dose responses (fragment F7-F10).
Fig. 7: DV49-DV248 concatermer 38 dose responses (fragment F11-F13).
Detailed Description Of The Invention
Hereinafter be detailed description of the present invention, it is provided to assist those skilled in the art to put into practice the present invention. Those of ordinary skills can not leave and make improvement in the situation of aim of the present invention or scope and change in enforcement mode as herein described.
The invention provides the method and composition for hereditary Control pests invasion and attack. For example, the invention provides recombinant DNA technology, prevent or suppress the hit expression of coded sequence of insect cell after being used for transcribing, thereby provide the insect protective action, the method is by making insect ingest one or more all or part of two strands of transcribing or small interference ribonucleic acid (RNA) molecules from the target coded sequence, thus the control invasion and attack. Therefore, the present invention relates to double-stranded RNA (dsRNA), comprise that siRNA (siRNA) carries out sequence-specific to the expression of coded sequence and suppresses, to reach the insect control level of expection.
The nucleic acid molecules that separates with basic purifying is provided, include but not limited to nucleotide sequence and recombinant DNA construction body that non-natural exists, be used for transcribing the dsRNA molecule of thing invention, interior source coding sequence in the insect or the expression of target coded sequence are prevented or suppressed to described sequence and construct when introducing. Genetically modified plants also are provided, they (a) thus comprise separation and the nucleic acid molecules of basic purifying and the nucleotide sequence of the recombinant DNA construction body that non-natural exists that coding is used for transcribing the invasion and attack of dsRNA molecule control plant insect, and (b) show the resistance of insect infestations and/or the tolerance of enhancing. Also described the composition that contains dsRNA nucleotide sequence of the present invention, be used for surface applied to plant or animal is upper or be administered to the environment of animal, to realize elimination or the minimizing of insect invasion and attack.
The inventor finds, opposite with the instruction of prior art, coleoptera species (obtaining nucleotide sequence by described species) are ingested contain the composition of the double stranded rna molecule that the sequence that exists in the nucleotide sequence by one or more expression of coleoptera species forms, cause the inhibition of one or more biological functions in the coleoptera species. Especially, the inventor finds to make crop pests species such as the corn rootworm double stranded rna molecule described herein of ingesting, and causes taking in insect pest dead of these compositions or grows and differentiation suppresses.
The inventor has identified that nucleotide sequence described herein provides the protective effect of anti-coleopteran pest species. The amino acid sequence of the cDNA sequence of having derived coding, and compare with known amino acid sequence. Predict that many sequences in these sequences all encode and have the albumen of more relative annotation information. Be based on amino acid sequence that the translation by coded sequence described herein derives and homology or the similitude between the amino acid sequence known in the art in the public database with specific nucleotide sequence with by the relevant annotation information of its Protein sequence.
Select the cDNA sequence of the coding necessary albumen of survival or protein part, for the preparation of the double stranded rna molecule that provides in the food of coleopteran pest, described albumen is such as the amino acid that participates in multiple metabolism or catabolism biochemical route, cell division, breeding, energetic supersession, digestion, nervous system function etc. Description such as this paper, the target insect is taken in the composition that contains one or more dsRNA (its at least one fragment is corresponding at least one the essentially identical RNA fragment that produces in the target insect cell), causes death, hypoevolutism or other inhibition of target insect. These results show that by the nucleotide sequence that coleopteran pest obtains, namely DNA or RNA can be used for making up the plant cell that anti-insect attacks. For example, can transform the insect host, make it contain the nucleotide sequence that one or more derive from coleopteran pest. Be transformed into nucleotide sequence in insect host or the homobium and can be coded in one or more RNA that form dsRNA in the host of conversion or the cell in the homobium or the biological fluid, if thereby/when insect when transformed host or homobium are ingested, can there be dsRNA in the food of insect, cause the expression of one or more genes in the insect cell to be prevented, and finally cause dead, slow or other inhibition of growing of insect.
The present invention relates generally to the heredity control of coleopteran pest invasion and attack in the host living beings. More specifically, the present invention includes for agent for controlling noxious insect pests being sent the method for passing coleopteran pest. Described agent for controlling noxious insect pests directly or indirectly cause insect to keep self growth or the ability of target host or homobium of otherwise attacking impaired. The invention provides for the dsRNA molecule that adopts stabilisation at pest food as preventing the method for the means of target gene in the insect, thereby realized in host that the insect target is fixed or the homobium or about the required insect invasion and attack control of described host or homobium.
In the process that realizes aforementioned purpose, the invention provides the inhibition coleopteran pest, the method that comprises expression of target gene in corn rootworm for example or other coleopteron species causes the ingesting of insect, grows, the stopping of growth, breeding, appeal, and finally can cause insect dead. In one embodiment, the method comprises the alimentation composition that double-stranded RNA (dsRNA) nucleic acid molecule of stabilisation partially or completely is introduced as the pest food source, and makes insect can access described alimentation composition to be used for ingesting. The alimentation composition that absorption contains two strands or siRNA molecule causes insect cellular uptake molecule, causes the inhibition of at least a expression of target gene in the insect cell. The inhibition of target gene applies harmful effect to insect.
In certain embodiments, dsRNA molecule provided by the invention comprise with SEQ ID NO:1-SEQ ID NO:906 in the nucleotide sequence of sequence complementation shown in any one, in the insect biology among the SEQ ID NO:1-SEQ ID NO:906 inhibition of sequence shown in any one cause the insect growth and grow or minimizing or the removal of the necessary albumen of other biological function or nucleotide reagent. The nucleotide sequence of selecting can with one of nucleotide sequence shown in the SEQ ID NO:1-SEQ ID NO:906 in the sequence table, comprise that its complementary series has the sequence homogeneity of about 80%-about at least 100%. Described inhibition can be described as specificity, because the nucleotide sequence of the part of target gene is selected from the sequence that inhibition property dsRNA or siRNA transcribe. The method can at least a target gene of establishment expression, and can be used for suppressing a lot of dissimilar target gene of insect. In specific embodiments, nucleotide sequence can be selected from SEQ ID NO:697, SEQ ID NOs:813-819, SEQ ID NO:841 and SEQ ID NO:874.
Can be expressed as easily the dsRNA molecule by setting up suitable expression construct, be accredited as the sequence with insect protective action. For example, by following step, described sequence can be expressed as hair clip and stem and ring structure: take out corresponding to the sequence that is selected from SEQ ID NO:1-SEQ ID NO:906 or the first fragment of its fragment, this sequence is connected in not and the first fragment homology or complementary second spacer segment district, and it is connected with the 3rd fragment of transcribe rna, wherein at least a portion of the 3rd fragment and this complementation of first segment base. Described construct forms stem and ring structure by the hybridization of the first fragment and the 3rd fragment, forms the ring structure (WO94/01550, WO98/05770, US 2002/0048814A1, and US 2003/0018993A1) that comprises the second fragment.
A. nucleic acid compositions and construct
The invention provides the recombinant DNA construction body for the stable conversion that realizes specific host or homobium insect target. The host who transforms or homobium insect target can be expressed extremely preferred dsRNA or the siRNA molecule from described recombinant DNA construction body of the effective level of worm, and described molecule is provided in the food of insect. Can be provided as right separation and the nucleotide sequence of purifying from cDNA library and/or genomic library information. Nucleotide sequence is to deriving from any preferred coleopteran pest, and is right as the heat amplification, to produce the DNA template for the preparation of dsRNA of the present invention and siRNA molecule.
Term used herein " nucleic acid " refers to the deoxyribose nucleotides of from 5 ' to 3 ' terminal reading code or list or the double-stranded polymer of ribonucleotide base. Optional ground, " nucleic acid " also can contain exist or the reformed nucleotide base of non-natural, and the correct reading code that it allows by the polymerization enzyme can not reduce the expression of the polypeptide of this nucleic acid coding. Term " nucleotide sequence " or " nucleotide sequence " refer to exist or be present in as independent strand the sense and antisense chain of the nucleic acid in the double-stranded body. Term " ribonucleic acid " (RNA) comprises RNAi (inhibitory RNA), dsRNA (double-stranded RNA), siRNA (siRNA), mRNA (courier RNA), miRNA (little RNA), tRNA (transhipment RNA, quilt or do not added electric charge by corresponding acylated amino) and cRNA (complementary RNA), and term " DNA " (DNA) comprises cDNA and genomic DNA and DNA RNA hybrid. Vocabulary " nucleic acid fragment ", " nucleic acid sequence fragments " or more common " fragment " will be interpreted as by those skilled in the art: it comprises the nucleotide sequence of genome sequence, rRNA sequence, transhipment RNA sequence, courier RNA sequence, operon sequence and less through engineering approaches, and described sequence is expressed maybe can be suitable for marking protein, polypeptide or peptide.
According to the present invention, nucleotide sequence is provided, its expression obtain with insect in the RNA sequence of the remarkable homology of RNA molecule of target gene, described insect comprises by the nucleotide sequence coded RNA sequence in the insect genes group. Therefore, after taking in the RNA sequence of stabilisation, can obtain the downward modulation to the nucleotide sequence of target gene in the insect cell, cause the harmful effect to the keeping of insect, viability, propagation, breeding and invasion and attack.
Term used herein " significantly homology " or " significantly homology ", when mentioning nucleotide sequence, be included under the strict condition with sequence table in the coded sequence shown in any one or the nucleotide sequence of its complementary sequence hybridization among the SEQ ID NO:1-SEQ ID NO:906. The sequence of any sequence of SEQ ID NO:1-SEQ ID NO:906 or its complementary sequence hybridization is the sequence that allows to occur between two sequences antiparallel arrangement under strict condition and in the sequence table, then two sequences can under the strict condition with the phase anti-chain on corresponding base form hydrogen bond, to form double-stranded body molecule, it is sufficiently stable under strict condition, uses approach well known to detect. Preferably, significantly has the sequence homogeneity of about 70%-about 80% with reference to nucleotide sequence or its complementary series shown in any one among the sequence of homology and the SEQ ID NO:1-SEQ ID NO:906 in the sequence table, perhaps more preferably, the sequence homogeneity of about 80%-about 85%, perhaps most preferably, the sequence homogeneity of about 90%-about 95%, the sequence homogeneity to about 99%.
Term used herein " sequence homogeneity ", " sequence similarity " or " homology " are used to describe the relation between the two or more pieces nucleotide sequence. The percentage of " sequence homogeneity " is measured by following method between the two sequences: the sequences that compare two optimum comparisons in comparison window, wherein, than canonical sequence (do not comprise and add or disappearance), in the comparison window part of sequence can comprise add or disappearance (namely, the room), be used for optimum comparison two sequences. Calculate percentage by following method: measure the quantity that has the position of identical nucleic acid base or amino acid residue in the two sequences, to produce the quantity of matched position, divided by the total number of positions in the comparison window, the result be multiply by 100 to produce the percentages of sequence homogeneity with the quantity of matched position. The identical sequence in each position is considered to identical with control sequence during with the canonical sequence comparison, and vice versa. If article one nucleotide sequence shows the complete complementary with second or canonical sequence, when observing with 5 ' to 3 ' direction, article one nucleotide sequence be considered to the second observed with 3 ' to 5 ' direction or with reference to the complementary series of nucleotide sequence or with its complementation. Herein, with complementary with each nucleotides of other sequence of 3 ' to 5 ' direction reading code the time, we say that the nucleotide sequence molecular display goes out " complete complementary " with each nucleotides in one of sequence of 5 ' to 3 ' direction reading code. To show the sequence identical with the reverse complementary sequence of reference nucleotide sequence with the nucleotide sequence of reference nucleotide sequence complementation. These terms and description have clear and definite definition in the art, are that those of ordinary skills are understandable.
" comparison window " used herein refers to, notional fragment of at least 6 continuous positions, common about 50 to about 100, more commonly, about 100 to about 150 continuous positions, wherein, after two sequences is compared by optimum, a sequence is compared with the canonical sequence with same quantity continuous position. Than canonical sequence (do not comprise add or disappearance), comparison window can comprise about 20% or interpolation still less or disappearance (that is, the room), is used for the optimum comparison of two sequences. Those skilled in the art are with reference to Wisconsin Genetics Software Package Release 7.0, Genetics Computer Group, 575 Science Drive Madison, Wis., be used for the method detailed of sequence comparison or the detailed discussion of analyzing about sequence with reference to the people such as Ausubel (1998) in USA).
The present invention also provides dna sequence dna, it can be expressed as RNA in cell or microorganism, in order to suppress the expression of target gene in insect cell, tissue or the organ, this sequence comprises the dna molecular of one or more different IPs nucleotide sequences of encoding, wherein, in the different IPs nucleotide sequence each comprises all that the interval sequence connects sense nucleotide sequence and antisense base sequences, the described sequence dsRNA molecule of the present invention of encoding. The interval sequence has consisted of the part that sense nucleotide sequence or antisense base sequences are arranged, and is formed in the dsRNA molecule between the sense and antisense sequence. There are nucleotide sequence or derivatives thereof or its complementary series of sense nucleotide sequence and antisense base sequences and target gene basic identical. The dsDNA molecule is operationally placed under the control of promoter sequence, and described promoter sequence plays a role in host's cell, tissue or organ, expresses dsDNA, produces the dsRNA molecule. In one embodiment, dna sequence dna can derive from the nucleotide sequence shown in the SEQ ID NO:1-SEQ ID NO:906 in the sequence table.
The present invention also provides dna sequence dna, is used at the plant cells, and, along with DNA is expressed as RNA and is absorbed by the target insect, can obtain preventing the expression that is harmful to target gene in insect cell, tissue or the organ. DsRNA comprises one or more structural gene sequences at least, and wherein, every kind of structural gene sequence comprises all that the interval sequence connects sense nucleotide sequence and antisense base sequences, and described sequence forms in complementary and antisense sequences and encircles. There are nucleotide sequence or derivatives thereof or its complementary series of sense nucleotide sequence and antisense base sequences and target gene basic identical. One or more structural gene sequences are operationally placed under the control of one or more promoter sequences, and are wherein at least a biological at protokaryon or eucaryon, particularly can operate in the cell of plant, tissue or the organ.
Gene order or fragment for Control pests of the present invention can be cloned into two kinds of organizing specific promoters that can operate at transgenic plant cells, for example between two kinds of root-specific promoters, described gene order or its fragment can expressed herein, produce mRNA in transgenic plant cells, it forms the dsRNA molecule. The dsRNA molecule that contains in the plant tissue is absorbed by insect, thereby obtains the expection of expression of target gene is prevented.
Nucleotide sequence provided by the invention can comprise the inverted repeats of being separated by " interval sequence ". The interval sequence can be the zone that comprises following any nucleotide sequence, and if necessary, described nucleotide sequence can promote each to repeat secondary structure formation between the sequence. In one embodiment of the invention, the interval sequence is the part of the sense or antisense coded sequence of mRNA. Perhaps, the interval sequence can comprise can with the covalently bound nucleotides of nucleic acid molecules or any combination of its homology thing. The interval sequence can comprise length and be the nucleotide sequence of about at least 10-100 nucleotides, and perhaps length is about at least 100-200 nucleotides, and length is about at least 200-400 nucleotides, and perhaps length is about at least 400-500 nucleotides.
Nucleic acid molecules in the sequence table or the fragment of nucleic acid molecules or other nucleic acid molecules can be under certain conditions specifically with other making nucleic acid molecular hybridization. If two molecular energies form antiparallel double-stranded nucleic acid structure, just say mutually specific hybrid of two nucleic acid molecules herein. If two nucleic acid molecules show complete complementary, we just say that a nucleic acid molecules is the complementary series of another nucleic acid molecules. If under traditional at least " low stringency " condition, two molecular energies allow them to remain the state of mutual annealing with the mutually hybridization of enough stability, and we just say that these two molecules are " minimum complementary ". Similarly, if under traditional " high stringency " condition, two molecular energies allow them to remain the state of mutual annealing with the mutually hybridization of enough stability, and we just say that these two molecules are complementary. Traditional strict condition is described in the people's such as the people such as Sambrook and Haymes document to some extent.
Therefore, have to deviate from complete complementation to allow, as long as thisly deviate from the ability completely dissolve that can not make molecule form duplex structure.Therefore,, only need sequence enough complementary, can under used specific solvent and salt concn, form stable duplex structure and get final product for the fragment that makes nucleic acid molecule or nucleic acid molecule is used as primer or probe.
Can promote the suitable stringent condition of DNA hybridization to be, for example, under about 45 ℃, 6.0x sodium chloride/sodium citrate (SSC), then wash with 2.0xSSC at 50 ℃, this is well known by persons skilled in the art, perhaps can find in Current Protocols in Molecular Biology (1989).For example, the salt concn in the washing step can be selected from: the low severity of 50 ℃ of following about 2.0xSSC, and to the high severity of 50 ℃ of following about 0.2xSSc.In addition, the temperature of washing step can be from room temperature, the high stringency of the low stringency under promptly about 22 ℃ under about 65 ℃.Temperature and salt can all change, and perhaps, it is constant that temperature or salt concn can keep, and other variable changes.Be used for nucleic acid of the present invention can be under the described conditions can with one or more nucleic acid molecule or its complementary sequence specific hybrid from WCR.Preferably, be used for nucleic acid of the present invention and will have about at least 80% with one or more nucleic acid molecule shown in the sequence table SEQ ID NO:1-SEQ ID NO:906, perhaps about at least 90%, perhaps about at least 95%, perhaps about at least 98%, perhaps even about 100% sequence identity.
Nucleic acid of the present invention can also be by methods known in the art synthetic wholly or in part.Therefore all or part of codon of choosing host's preference then that can be to use of nucleic acid of the present invention comes synthetic.The codon of species preference can pass through, and for example, codon the most used from expressed proteins the specific host species is determined.Can obtain having the active mutant of slight change to other modification of nucleotide sequence.
DsRNA or siRNA nucleotide sequence comprise the two strands of polymeric ribonucleotide, and can comprise the modification to phosphoric acid-sugar backbone or nucleosides.The modification of RNA structure can be adjusted, and suppresses to allow specificity heredity.In one embodiment, can modify the dsRNA molecule by enzyme method, thereby can produce the siRNA molecule.SiRNA can effectively mediate the downward modulation effect at some target genes in some insects.This kind of enzyme method can be finished (people such as Elbashir, 2002 by utilize the RNAse III enzyme or the DICER enzyme that exist in insect, vertebrates, fungi or the vegetable cell in eucaryotic RNA i approach; Hamilton and Baulcombe, 1999).This method can utilize also that those skilled in the art understand easily passes through reorganization DICER or RNAse III that recombinant DNA technology is incorporated in the target insect cell and carries out.Naturally be present in the dsRNA chain that DICER enzyme in the insect or by the recombinant DNA technology manufacturing and RNAse III can will be bigger and be cut into less oligonucleotide.The DICER enzyme can be cut into the siRNA fragment with the dsRNA molecule specifically, and wherein, the segmental length of each siRNA is about 19-25 Nucleotide, and the RNAseIII enzyme is cut into the dsRNA molecule siRNA of 12-15 base pair usually.3 ' the overhang and 5 ' phosphoric acid and the 3 ' C-terminal that have 2 to 3 Nucleotide by the siRNA molecule of above-mentioned any enzyme generation.The siRNA that produces by RNAse III enzyme is with identical by those of Dicer enzyme generation in eucaryotic RNA i approach, therefore, then can be fixed by target, and after loose subsequently, degraded by intrinsic cell RNA degradation mechanism, be separated into single stranded RNA, and the RNA sequence hybridization of transcribing with target gene.This method causes the nucleotide sequence coded RNA sequence of target gene in the insect is effectively degraded or removed.The result is exactly by the silence of the fixed nucleotide sequence of special target in the insect.The details of enzyme method is described and can be found in Hannon (2002).
Nucleotide sequence of the present invention can be recorded on the computer-readable medium." computer-readable medium " used herein refers to: can be by the tangible expression medium of computer direct reading and access.This type of medium includes but not limited to: magnetic-based storage media, floppy disk for example, hard disk, storage media and tape; Optical storage medium, for example CD-ROM; Electronic storage medium, for example RAM and ROM; The computer document of optical character recognition form, and the heterozygote of mentioned kind, for example, magnetic/optical storage medium.It will be readily apparent to those skilled in the art that any known computer-readable medium can be used to make following product at present, described product comprises the computer-readable medium that writes down nucleotide sequence of the present invention.
" record " used herein refers to, is used for the method for storage information on computer-readable medium.Those skilled in the art can easily adopt any present known method to come recorded information on computer-readable medium, comprise the medium of nucleotide sequence information of the present invention with generation.To those skilled in the art, multiple different data store organisation is obtainable, is used to make the computer-readable medium of minute book invention nucleotide sequence.Selection to the data storage media usually will be based on selecting for use access to be stored the means of information.In addition, multiple different data processor program and form can be used for nucleotide sequence of the present invention is stored on the computer-readable medium.Sequence information can be showed in the word processing text document, with the software that can obtain by commercial sources, the form of WordPerfect and Microsoft Word for example, perhaps it can be shown as the form of ASCII text document, be stored in the database application, for example DB2, Sybase, Oracle etc.Those skilled in the art can easily adapt any amount of data handler structured format (for example, text document or database), to obtain to record the computer-readable medium of nucleotide sequence information of the present invention.
The computer software of the sequence information that provides in permission those skilled in the art accessing computer readable medium is that the public is obtainable.In the Sybase system, carry out BLAST (people such as Altschul, 1990) and BLAZE (people such as Brutlag, 1993) software of searching algorithm can be used to identify the reading frame (ORF) in the sequence, for example, provided herein, contain and from the Unigene and the EST of other biological ORF or proteic homology.This type of ORF is the fragment of coded protein in the sequence of the present invention, can be used for producing commercial important protein, for example, be used for that amino acid bio is synthetic, metabolism, transcribe, the enzyme of translation, RNA processing, nucleic acid and proteolytic degradation, protein modification and dna replication dna, restriction, modification, reorganization and reparation.
The present invention also provides the system that contains sequence information as herein described, particularly the computer based system.This type systematic is designed to: can identify the commercially important fragment in the nucleic acid molecule of the present invention." computer based system " used herein refers to be used to analyze hardware device, software equipment and the data storage device of Nucleotide information of the present invention.The minimal hardware equipment of computer based of the present invention system comprises central processor unit (CPU), input unit, output equipment and data storage device.Those skilled in the art can easily instruct, and anyly in the present obtainable computer based system all are suitable for the present invention.
" target structure motif " used herein or " target motif " refer to, any sequence or the combined sequence rationally selected, and wherein, the 3-d modelling that forms when folding based on target motif is selected one or more sequences.Multiple target motif known in the art.The protein targets motif includes but not limited to, enzyme active sites and signal sequence.The nucleic acid target motif includes but not limited to, promoter sequence, cis-acting elements, hairpin structure and inducible expression element (protein binding sequence).
B. recombinant vectors and host cell transform
Recombinant DNA carrier can be a cyclic plasmid for example linear or sealing.Carrier system can be single carrier or plasmid, or two or more carriers or plasmid, and they contain the total DNA that will be introduced in the host bacterium genome together.In addition, bacteria carrier can be an expression vector.Nucleic acid molecule shown in the SEQ ID NO:1-SEQ ID NO:906 in the sequence table or its fragment or its complementary sequence can, for example, be inserted in the carrier suitably, described carrier is under the control of suitable promotor, described promotor plays a role in one or more microorganism host, to drive the encoding sequence connected or the expression of other dna sequence dna.For this purpose, a lot of carriers all are obtainable, will depend primarily on the size of the nucleic acid that will be inserted in the carrier and the particular host cell that will transform with carrier to the selection of suitable carrier.Every kind of carrier all contains various ingredients, and this depends on its function (DNA amplification or expressible dna) and the particular host cell compatible with it.Being used for carrier component that bacterium transforms generally includes but is not limited to one or more of following component: signal sequence, replication orgin, one or more selectable marker genes and the inducible promoter that allows foreign DNA to express.
Expression and cloning vector contain the selection gene usually, and it is also referred to as selective marker.The transformed host cells survival that this genes encoding is grown on selective medium or the necessary albumen of growing.The typical following albumen of genes encoding of selecting, described albumen: (a) give to microbiotic or other toxin, for example, the resistance of penbritin, Xin Meisu, methotrexate or tsiklomitsin, (b) supply auxotrophy, or (c) provide the crucial nutrition that can't from complex medium, obtain, and for example, the gene of coding genus bacillus D-alanine racemase.These can be produced the albumen of giving drug resistance by heterologous protein or its fragment success cell transformed, can survive in selection scheme thus.
The expression vector that is used to produce mRNA also can contain following inducible promoter, described promotor can be by the host bacteria bio-identification, and be operably connected with following nucleic acid, described nucleic acid for example, encoding D .v.virgifera mRNA or its interested segmental nucleic acid.The inducible promoter that is suitable for host bacterium comprises the β-Nei Xiananmei promotor, intestinal bacteria lambda particles phage PL and PR promotor, and intestinal bacteria semi-lactosi promotor, pectinose promotor, alkaline phosphatase promoter, tryptophane (trp) promotor and lactose operon promotor and variant and hybrid promoters, for example, tac promotor.But other known bacteria-induction type promotor also is suitable.
Mentioning when regulating sequence and structure nucleotide sequence, term " is operably connected " and refers to, regulates the expression of being regulated that sequence causes the structure nucleotide sequence that links to each other." adjusting sequence " or " controlling elements " refer to be positioned at the nucleotide sequence of structure nucleotide sequence upstream (5 ' non-coding sequence), inside or downstream (3 ' non-translated sequence), and it can have influence on opportunity and the level or the quantity of the transcribing of dependency structure nucleotide sequence, RNA processing or stability or translation.Regulate sequence and can comprise promotor, translation leader sequence, intron, enhanser, stem-ring structure, repressor binding sequence and poly-adenosine recognition sequence etc.
Perhaps, expression construct can be integrated into bacterial genomes with integrative vector.Typically, integrative vector contains and at least a sequence of bacterial chromosome homologous that allows vector integration.Integration looks like that in carrier DNA and the bacterial chromosome reorganization between the homologous dna causes.For example, use the integrative vector that makes up from the DNA of multiple Bacillus strain can be integrated into genus bacillus karyomit(e) (EP 0,127,328).Integrative vector also can comprise phage or transposon sequence.Suicide vector also is known in the art.
Structure to the suitable carrier that contains one or more components of listing above utilizes the recombinant DNA technology of standard to carry out.To being cut, shear, and be connected to the required plasmid desirable form of generation again through isolating plasmid or dna fragmentation.The example of obtainable bacterial expression vector includes but not limited to, multi-functional escherichia coli cloning and expression vector, for example, Bluescript TM(Stratagene, La Jolla, CA), wherein, for example, D.v.virgifera albumen or its fragment can be connected into carrier, described connection be with meet be used for beta-galactosidase enzymes N-terminal Met and subsequently the mode of the reading frame of seven residues carry out, produce hybrid protein thus; PIN carrier (Van Heeke and Schuster, 1989) etc.
Typically, the yeast recombinant precursor comprises one or more in the following component: promoter sequence, fusion partner sequence, leader sequence, transcription termination sequence, selective marker.These elements can be combined into expression cassette, and expression cassette can be held in the replicon, extra-chromosomal element (for example, plasmid) for example, and it can be stablized and remains among the host (for example yeast or bacterium).Replicon can have two cover dubbing systems, allows it for example to be held in thus, is used in the yeast expressing, and remains in and be used for clone and amplification among the prokaryotic organism host.The example of this type of yeast-bacterium shuttle vectors comprises YEp24 (people such as Botstein, 1979), pCl/1 (people such as Brake, 1984) and YRpl7 (people such as Stinchcomb, 1982).In addition, replicon can be the plasmid of high or low copy number.High copy number plasmid will have about 5 copy numbers to about 200 scopes usually, typically, and about 10 to about 150.It is about at least 10 that the host of containing high copy number plasmid will preferably have, more preferably about at least 20 copies.
Useful yeast initiating sequence can obtain by the gene of enzyme from encoding metabolic pathway.The example of this genoid comprises alcoholdehydrogenase (ADH) (EP 0 284044), enolase, glucokinase, G-6-P isomerase, glyceraldehyde-3-phosphate dehydrogenase (GAP or GAPDH), hexokinase, phosphofructokinase, 3-phosphoglycerate mutase and pyruvate kinase (PyK) (EP0 3215447).The yeast PHO5 gene of coding acid phosphatase also provides useful promoter sequence people such as (, 1983) Myanohara.In addition, natural non-existent synthetic promoter also can be used as Yeast promoter and plays a role.The example of this type of hybrid promoters comprises that the ADH that links to each other with GAP transcriptional activation zone regulates sequence (U.S. Patent number 4,876,197 and 4,880,734).The terminator sequence of Transcription Termination subsequence and the identification of other yeast as those example of fgs encoder glycolytic ferment, is well known by persons skilled in the art.
Perhaps, expression construct can be integrated into the yeast genes group with integrative vector.Typically, integrative vector contains and at least a sequence of yeast chromosomal homologous that allows vector integration, and preferably contains the two kind homologous sequences of flank in the table construct.Integration looks like (people such as Orr-Weaver, 1983) that the reorganization between the homologous dna causes in carrier and the yeast chromosomal.Integrative vector can be at the specific gene seat in the yeast, and this is by selecting suitable homologous sequence to comprise that into carrier is realized.People's such as described Orr-Weaver document sees above.One or more expression construct can be integrated, and may influence the level (people such as Rine, 1983) of the recombinant protein of generation.
The present invention also considers nucleotide sequence of the present invention is transformed into plant, makes one or more dsRNA molecular energies suppress horizontal expression with insect.Use the obtainable method in this area, can easily prepare conversion carrier.Conversion carrier comprises one or more following nucleotide sequence, described sequence can be transcribed into the RNA molecule, and remarkable homology of one or more nucleotide sequences and/or complementation with the insect genes group coding, when making picked-up RNA, can reduce at least a expression in each nucleotide sequence in the insect genes group.
Conversion carrier also can be called the dsDNA construct, and it also can be defined as recombinant molecule, insect-controlling agent, genetic molecule or mosaic heredity construct.Mosaic heredity construct of the present invention can comprise, for example, encode one or more antisense transcripts, one or more have the nucleotide sequence of adopted transcript, above-mentioned one or more materials, wherein, from its all or part of homology of all or part of and following RNA molecule of transcript, described RNA molecule comprises RNA sequence nucleotide sequence coded in the insect genes group.
In one embodiment, plant conversion carrier comprises the dna molecular of separation and purifying, wherein comprises the promotor that operationally links to each other with one or more nucleotide sequences of the present invention.Nucleotide sequence is selected from the SEQ ID NO:1-SEQ ID NO:906 in the sequence table.Nucleotide sequence comprises following fragment, and the RNA's that exists in its coding target insect rna transcription thing is all or part of, also comprises all or part of inverted repeats of target insect RNA.The dna molecular that comprises expression vector also can contain functional intron sequences (its be positioned the upstream of encoding sequence or even among encoding sequence), described molecule can also contain five casts aside (5 ') untranslated leader (promptly, UTR or 5 '-UTR), it is positioned between promotor and the translation initiation site.
Plant conversion carrier can contain the sequence from more than one genes, allows more than one dsRNA to produce thus, is used for suppressing two or more expression of gene of target insect cell.One of ordinary skill in the art will readily recognize that the dna fragmentation one-tenth unitary composite capable of being combined dna fragmentation that has corresponding to the sequence of the sequence that exists in the different genes, be used for expressing transgenic plant.Perhaps, can be modified the plasmid of the present invention that contains at least a dna fragmentation, this is undertaken by extra dna fragmentation is inserted between enhanser and promotor and the terminator sequence in proper order.Be used for suppressing in the insect-controlling agent of the present invention of several genes in design, treat that suppressor gene can obtain from same insect species, to strengthen the efficient of insect-controlling agent.In some embodiments, gene can obtain from different insects, to widen effective insect scope of reagent.When in order to prevent or at the combination of expressing and preventing and target when deciding several genes, can be according to Fillatti, application publication number US 2004-0029283 elaboration is made polycistron DNA element with disclosed.
The promotor that has function in different plant species also is well known in the art.Be used in that the promotor of express polypeptide comprises in the plant, the described induction type of people such as Odell (1985), virus, synthetic or constitutive promoter, and/or by the promotor of regulating from time adjusted, space adjusted and space-time.Preferred promotor comprises enhanced CaMV35S promotor and FMV35S promotor.With regard to purpose of the present invention, for example, for the optimum control of the species of ingesting at root, the highest level that preferably obtains these genes in plant root is expressed.A large amount of root strengthens promotors to be identified, their be known in the art (people such as Lu, 2000; U.S. Patent number 5,837,848 and 6,489,542).
Typically, recombinant DNA carrier of the present invention or construct will comprise selective marker, and it can give the selection phenotype on vegetable cell.Selective marker also can be used for selecting plant or the vegetable cell that contains code book invention polypeptide or proteic exogenous nucleic acid.Mark can encode biocide resistance, antibiotics resistance (for example, kantlex, G418 bleomycin, Totomycin etc.) or Herbicid resistant (for example, glyphosate etc.).The example of selective marker includes but not limited to that the neo gene of coding kantlex mycin resistance can use kantlex, G418 etc. to select; The bar gene of coding bialaphos resistance; The sudden change epsp synthase gene, its glyphosate resistance of encoding; Nitrilase gene, it gives the resistance to bromoxynil; Mutant acetolactate synthase gene (ALS), it gives the resistance to imidazolone or sulphur urea; And the DHFR gene of anti-Rheumatrex.The described example that is selected from mark is illustrated in United States Patent (USP) 5,550,318; 5,633,435; 5,780,708 and 6,118,047.
Recombinant vectors of the present invention or construct also can comprise selection markers.Selection markers can be used to monitor and express.Exemplary selection markers comprises, β-Pu Taotanggansuanmei or uidA gene (GUS), its known enzyme (Jefferson, 1987 that multiple chromophoric substrate is arranged of encoding; People such as Jefferson, 1987); R-locus gene, the product (people such as Dellaporta, 1988) that its coding can be regulated the generation of anthocyania pigment in the plant tissue (redness); β-Nei Xiananmei gene (people such as Sutcliffe, 1978), the known enzyme that multiple chromophoric substrate (for example, PADAC, color development cynnematin) arranged of this genes encoding; Luciferase genes (people such as Ow, 1986); XylE gene people such as (, 1983) Zukowsky, its coding catechol dioxygenase, described enzyme can transform the catechol of color development; Alpha-amylase gene (people such as Ikatu, 1990); Tyrosinase cdna (people such as Katz, 1983), its coding can be oxidized to tyrosine the enzyme of DOPA and DOPA quinone, and the DOPA quinone is a melanochrome with after; Alpha-galactosidase, the α-semi-lactosi substrate of its energy catalysis color development.
Preferred plant conversion carrier comprise Ti-plasmids from Agrobacterium tumefaciens (for example, U.S. Patent number 4,536,475,4,693,977,4,886,937,5,501,967 and EP 0 122 791).Rhizobiaceae plasmid (or " Ri ") also can use, and they are known in the art.Other preferred plant conversion carrier comprise Herrera-Estrella (1983), Bevan (1983), Klee (1985) and EP 0 120516 disclosed those.
Usually, preferably in Plant Genome non-specific position introduce functional recombinant DNA.Under special circumstances, can insert the recombinant DNA construction body by site-directed integration.Exist some known can making to implant the multiple fixed point recombination system with function, it comprises United States Patent (USP) 4,959,317 disclosed cre-lox and United States Patent (USP) 5,527,695 disclosed FLP-FRT.
The appropriate method that is used for transformed host cell of the present invention comprises the almost any method that DNA can be introduced cell, for example directly sending of DNA passed, (the people such as Omirulleh of the protoplast transformation by PEG mediation for example, 1993), the DNA of drying/inhibition mediation picked-up (people such as Potrykus, 1985), electroporation (U.S. Patent number 5,384,253), stir (people such as Kaeppler, 1990 with silicon carbide fiber; U.S. Patent number 5,302,523; With U.S. Patent number 5,464,765), agrobacterium-mediated conversion (U.S. Patent number 5,591,616 and U.S. Patent number 5,563,055) and the particle of DNA bag quilt quicken (U.S. Patent number 5,550,318; U.S. Patent number 5,538,877; With U.S. Patent number 5,538,880) etc.By such as above-mentioned technology, can stable conversion the cell of any species almost.Under the situation of many cells species, can render transgenic cell regeneration be genetically modified organism.
Set up transgenic plant, particularly the method for expressing heterologous nucleic acid is known in plant, and can be with nucleic acids for preparation transgenic plant provided herein, and it is to target insect biology, reduces as the susceptibility of ingesting of corn rootworm.For example, can insert plant conversion carrier by nucleic acid and be introduced into plant, can prepare plant conversion carrier generation dsRNA disclosed herein.By modifying the natural gene transfer system of Agrobacterium tumefaciens, obtained a kind of known carrier system.The natural series turnkey contains big Ti (tumor inducing) plasmid, and it contains the big fragment that is called T-DNA, and it is transferred in the plant transformed.Another fragment of Ti-plasmids, promptly the vir district is responsible for T-DNA and shifts.The border in T-DNA district is a terminal repeat.In the binary vector of modifying, removed tumor inducting gene, and utilized the function in vir district to shift the foreign DNA of border for the T-DNA border sequence.The T district also can contain selective marker and a plurality of cloning site that is useful on efficient recovery transgenic plant and cell, and described site is used to insert some sequences, and described sequence is used for jump routine such as dsRNA coding nucleic acid.
Typically, the transgenic plant of using agrobacterium transformation method to form contain the single simple recombinant DNA sequence that is inserted in the karyomit(e), and it is called as transgenic event.It is heterozygosis that these type of transgenic plant can be called as for the exogenous array that inserts.The transgenic plant of isozygotying for the transgenosis body can produce the F1 seed and obtain by the transgenic plant selfing that makes independent separate.In the F1 seed that produces 1/4th will isozygoty for the transgenosis body.Make the F1 seed germination, just having produced can tested heterozygosity or the plant of homozygosity, typically, uses SNP to measure or hot amplification assay carries out, and described mensuration allows the difference (that is zygosity determination) between heterozygote and the homozygote.
C. expression of nucleic acid and target gene are prevented
As host transformed or or the example of symbiote insect target biology, the present invention also provides plant transformed cell and plant transformed and their offspring.Plant transformed cell and plant transformed can through engineering approaches, to express one or more dsRNA disclosed herein or siRNA sequence, so that the insect protective effect to be provided.These sequences can be used for the gene of insect biology and prevent, thereby reduce the invasion and attack of insect on shielded conversion host or the symbiote biology.Vocabulary used herein " gene is prevented " is used for representing being used to reduce any known method that genetic transcription becomes the level of mRNA and/or mRNA translation subsequently.
Gene is prevented the reduction that also is used to refer to from the protein expression of gene or encoding sequence, comprises that posttranscriptional gene is prevented and transcription repression.Posttranscriptional gene prevents all or part of that be that gene that from preventing target is fixed or encoding sequence transcribe the mRNA that comes to mediate with homology between the corresponding double-stranded RNA that is used to prevent, and it refers to the reduction that the obtainable amount that is used for rrna bonded mRNA maybe can measure significantly in cell.The RNA that process is transcribed can be a sense orientation, brings into play so-called resistance inhibitor action altogether, can be antisense orientation perhaps, brings into play so-called antisense resistance inhibitor action, perhaps produces dsRNA with two kinds of directions, brings into play so-called RNA interference effect (RNAi).
Transcription repression is that the existence of dsRNA gene co-inhibitor in the cell mediates, and described dsRNA gene co-inhibitor shows the remarkable sequence identity with promoter DNA sequence or its complementary sequence, and performance is called as the effect that promotor oppositely suppresses.Gene is prevented and can be played a role at the natural plant gene relevant with proterties, for example, to plant provide have the reduction level, by the natural gene encoded protein, perhaps having increases or the affected metabolite of reduction level.Gene is prevented also and can be played a role at the target gene of following plant insect, described insect can absorb or contact the vegetable material that contains the gene co-inhibitor, and described gene co-inhibitor is specifically designed the expression that can suppress or prevent one or more homologous sequences in the insect cell or complementary sequence.U.S. Patent number 5,107 discloses antisense in 065,5,759,829,5,283,184 and 5,231,020 or has had the directed RNA of justice to carry out posttranscriptional gene and prevented, to regulate the genetic expression in the vegetable cell.DsRNA is used for preventing the purposes of plant gene to be disclosed WO 99/53050, WO 99/49029, U.S. Patent Application Publication No. 2003/0175965 and 2003/0061626, Application No. 10/465,800 and U.S. Patent number 6,506,559 and 6, in 326,193.
In plant, carry out useful method that posttranscriptional gene prevents and use the directed and RNA that the transcribes antisense orientation, stabilization of justice is arranged, for example, as hair clip and loop-stem structure.Be used to carry out preferred DNA construct that posttranscriptional gene prevents and be following like this, wherein, first section fragment coding show antisense orientation RNA (its show and target fragment to be prevented between remarkable identity), described first section fragment links to each other with second section fragment, and second section fragment coding shows with first section fragment has highly complementary RNA.This type of construct estimated to form loop-stem structure (this forms with second section fragment hybridization by first section fragment) with from the ring structure (seeing WO94/01550, WO98/05770, US2002/0048814 and US 2003/0018993) that is connected both section segmental nucleotide sequences.
According to another embodiment of the invention, a kind of nucleotide sequence is provided, its vivoexpression causes transcribing of stabilization RNA sequence, the remarkable homology of RNA molecule of target gene in described RNA sequence and the insect, and described RNA molecule comprises the nucleotide sequence coded RNA sequence in the insect genes group.Therefore, after the stabilization RNA sequence of mixing in the insect pickuping food or plant surface sprays, will cause in the target insect cell nucleotide sequence to be reduced corresponding to target gene.
It is sequence-specific utilizing stabilization dsRNA technology of the present invention to suppress target gene because, with the duplex of RNA zone corresponding nucleotide sequences be fixed by target for heredity suppresses.The RNA that contains the nucleotide sequence identical with the part of target gene is optimized for inhibition.The RNA sequence that relative target sequence has insertion, disappearance and simple point mutation also is found and can effectively suppresses.At aspect of performance of the present invention, preferably, the part of inhibition dsRNA and target gene is shared about at least sequence identity more than 80%, perhaps about sequence identity more than 90%, perhaps about sequence identity more than 95%, perhaps about sequence identity more than 99%, perhaps even about 100% sequence identity.Perhaps, the duplex zone of RNA can functionally be defined as: can with the nucleotide sequence of the part of target gene transcript hybridization.But show the long sequence that less homology is but only arranged of the sequence compensate for slower less than total length of higher homology.The length of identical nucleotide sequence can be about at least 25,50,100,200,300,400,500 or about at least 1000 bases.Usually, should use the sequence above 20-100 Nucleotide, but the sequence that surpasses about 200-300 Nucleotide being preferred, is especially preferred above the sequence of about 500-1000 Nucleotide, and this depends on the size of target gene.The present invention has following advantage: it can tolerate sequence variations, and described variation may cause owing to genetic mutation, bacterial strain polymorphism or evolutionary divergence.With respect to the primary transcription product of target gene or through the mRNA of processing fully, the nucleic acid molecule of introducing may not need absolute homology, may need not be total length.Therefore, those skilled in the art need recognize that as disclosed herein, 100% sequence identity between RNA and the target gene is also nonessential for implementing the present invention.
Can be by quantitatively to the inhibition of expression of target gene, this is to be undertaken by measuring the albumen that endogenous target RNA or target RNA translation produced, the result of inhibition can verify by the inspection of pair cell or biological extrinsic property.The method that is used for RNA and protein quantification is well known to a person skilled in the art.The multiple choices mark of giving the resistance of penbritin, bleomycin, paraxin, gentamicin, Totomycin, kantlex, lincomycin, methotrexate, careless fourth phosphine, tetracycline, spectinomycin, Rifampin and tsiklomitsin etc. is obtainable.
In some embodiments, genetic expression has been suppressed at least 10%, preferably, and at least 33%, more preferably, at least 50%, further more preferably, at least 80%.In particularly preferred embodiment of the present invention, the genetic expression in the insect cell has been suppressed at least 80%, more preferably, and at least 90%, more preferably, at least 95%, perhaps at least 99%, make significant the inhibition take place.Significant suppress to be used to refer to enough inhibition, its phenotype that causes to be detected (for example, larval growth stops, paralysis or death etc.) or pairing RNA of repressed target gene and/or proteinic can detectedly the minimizing.Though In some embodiments of the present invention, be suppressed in basic all cells of insect and take place, other preferred embodiment in, suppress only in the cell subgroup of expressing this gene, to take place.For example, if the gene that will suppress plays a significant role in the gastral cell of insect, intragentic inhibition just is enough to insect is applied deleterious effects to these cells.
The dsRNA molecule can interior or external synthesizing of body.DsRNA can be by wall scroll self complementary RNA chain formation, perhaps can be by two complementary RNA chain formation.The endogenous RNA polysaccharase of cell can mediate in the body transcribes, and perhaps Ke Long RNA polymkeric substance can be used in the body or in-vitro transcription.Can come target to suppress surely by following method: the specific transcriptional in organ, tissue or cell type; The stimulation of envrionment conditions (for example, infect, coerce, temperature, chemical inducer); And/or transcribe in the through engineering approaches that etap or age carry out.The RNA chain can yes or no poly-adenosineization; The RNA chain can or can not be translated as polypeptide by the translating equipment of cell.
RNA of the present invention, dsRNA, siRNA or miRNA are produced by chemical process or enzyme method by those skilled in the art, and this is by manually or automatically reacting or carrying out in another organism.Also can make RNA by organic synthesis partially or completely; Can synthesize or any ribonucleotide of organic synthesis introducing by vitro enzyme through modifying.Can synthesize RNA by intracellular rna polysaccharase or phage rna polymerase (for example, T3, T7, SP6).Expression construct use and manufacturing is (sees, for example, WO 97/32016, U.S. Patent number 5,593,874,5,698,425,5,712,135,5,789,214 and 5,804,693) known in the art.If by chemosynthesis or synthetic, can before introducing cell, carry out purifying to RNA by vitro enzyme.For example, can from mixture, be purified into RNA by with solvent or resin extraction, precipitation, electrophoresis, chromatogram or its combination.Perhaps, can or only carry out at purifying not using RNA under the situation of minimal purifying, to avoid because the loss that sample processing causes.RNA can be dried to store, and perhaps is dissolved in the aqueous solution.Solution can contain buffer reagent and salt, with the annealing that promotes the duplex chain and/or stable.
For transcribing from transgenosis body or expression construct in vivo, can use regulation domain (for example, promotor, enhanser, silencer and poly-adenosineization) to transcribe (or many) RNA chain.Therefore, in one embodiment, the nucleotide sequence that is used for making the RNA molecule can operationally link to each other with the one or more promoter sequences that have function at microorganism, fungi or plant host cell.Ideally, nucleotide sequence is placed under the control of endogenesis promoter, and described endogenesis promoter is in the host genome usually.Be in the nucleotide sequence of the present invention under the promoter sequence control that is operably connected, flank can also have extra sequence, and described extra sequence can advantageously influence the stability of its transcript of transcribing and/or obtaining.This type of sequence is usually located at the upstream of the promotor that is operably connected, and/or the downstream of expression construct 3 ' end, can be present in the downstream of promotor upstream and expression construct 3 ' end simultaneously, but also considers only to have described upstream sequence.
" insect-controlling agent " used herein or " gene co-inhibitor " refers to specific RNA molecule, it comprises first RNA fragment and second RNA fragment, wherein the complementarity between first and second the RNA fragment cause two fragments in vivo or external hybridization form the ability of duplex molecule.May preferably include the 3rd RNA fragment usually, its connection and stablize first and second sequence makes entire structure form loop-stem structure, or even the structure of tightr hybridization can form stem ring knotting (knotted) structure.Perhaps, can wherein not have the ring of design, but for steric reason, enough stablize himself when the length of stem not having to form symmetrical hair clip under the 3rd the segmental condition, hair clip will be set up the ring of himself.First and second RNA fragments are usually located in the length of RNA molecule, and are significantly oppositely repetition each other, and are linked together by the 3rd RNA fragment.First and second fragments always and be not respectively corresponding to target RNA justice and antisense sequences arranged, the target gene that described target RNA is the target insect pest transcribes, described target gene can be prevented by the picked-up of dsRNA molecule.Insect-controlling agent can also be the nucleic acid molecule of highly purified (or separation), more particularly, and from nucleic acid molecule or its nucleic acid fragment molecule in genomic dna (gDNA) or cDNA library.Perhaps, described fragment can comprise littler oligonucleotide, and it has about 15 to about 250 nucleotide residues, and more preferably, about 15 to about 30 nucleotide residues.
Term used herein " genome " not only comprises the chromosomal DNA of finding in the nuclear when being used for insect or host cell, it also is included in the organelle DNA of finding in the subcellular components of cell.Therefore, DNA of the present invention is introduced in process in the vegetable cell and can locatees by chromosomal integration or by organoid and carry out.Term " genome " comprises karyomit(e) and the plasmid in the bacterial host cell when being applied to bacterium.Therefore, DNA of the present invention is introduced in process in the bacterial host cell and can locatees by chromosomal integration or by plasmid and carry out.
Term used herein " insect " refers to insect, spider, Crustacean, fungi, bacterium, virus, nematode, flatworm, roundworm, pinworm, hookworm, tapeworm, taper worm, schistosomicide, horse botfly, flea, flat lice, mite, lice etc., they are that nature is ubiquitous, one or more can be absorbed or contact by cell, tissue or fluid that insect host or symbiote (be converted into and can express or wrap by double-stranded gene co-inhibitor) produce, perhaps the vegetable material that contains the gene co-inhibitor can be absorbed." pest resistance " used herein is the feature of transgenic plant, transgenic animal, transformed host or transgenosis symbiote, it makes described plant, animal, host or symbiote have resistance for the attack of insect, and described attack typically can cause damage or loses described plant, animal, host or symbiote.This type of pest resistance may produce from natural sudden change, perhaps more typically, produces mixing from the recombinant DNA of giving pest resistance.For the render transgenic plant has insect-resistant, recombinant DNA can for example be transcribed into the RNA molecule, forms the dsRNA molecule in the tissue of recombinant plant or fluid.The dsRNA molecular moiety comprises: with the identical RNA fragment of corresponding RNA fragment of dna sequence encoding in the harmful insect that preference is ingested on recombinant plant.Expression of gene is prevented by dsRNA in the target insect pest, causes plant to have insect-resistant to preventing of genetic expression in the target insect pest.People such as Fire (U.S. Patent number 6,506,599) have described the inhibition to the insect invasion and attack prevailingly, only provide details at the some middle nucleotide sequence that has the suppressor gene function in nematode kind caenorhabditis elegant.Similarly, people (US 2003/0061626) such as Plaetinck has described dsRNA and has been used for purposes in multiple nematode pests kind suppressor gene function.People such as Mesa (US 2003/0150017) have described: use dsRNA sequence transformed host cell, with the essentially identical corresponding dsRNA sequence of target sequence in expression and the special pathogen, and described especially: make up recombinant plant, it expresses these dsRNA sequences (being absorbed by the various plants insect), promotion is to the downward modulation of gene in the insect genome, and the raising plant is to the resistance of insect invasion and attack.
The invention provides the method that the dsRNA that uses stabilization suppresses the genetic expression of one or more target genes in the target insect.The present invention is particularly useful in the adjusting eukaryotic gene expression, particularly regulate the expression of gene that exists in the insect, described insect shows about 4.5 to about 9.5, more preferably about 5.0 to about 8.0, further more preferably about 6.5 to about 7.5 Digestive tract pH.For the plant insect of Digestive tract, may need to adopt the method for passing of sending that does not require picked-up dsRNA molecule with the pH level outside these scopes.
The regulating effect of dsRNA is applicable to the several genes of expressing in insect, for example, be responsible for the native gene of cellular metabolism or cell transformation, comprises other gene of the polypeptide that house-keeping gene, transcription factor and Codocyte metabolism relate to.
Phrase used herein " inhibition of genetic expression " or " suppressing target gene expression in the insect cell " refer to that there be not (or observable reduction) in the albumen of target gene and/or mRNA product level.Specificity refers to: suppress target gene and other gene of pair cell does not have effect and the ability that any gene in the cell that produces the dsRNA molecule not have influence.May cause new phenotypic character in the insect pest to the inhibition of the genetic expression of target gene in the insect pest.
A part of the present invention provides a kind of delivery system that send, and is used for insect-controlling agent sent being delivered to insect, and this is to realize by they being exposed to the food that contains insect-controlling agent of the present invention.According to one of embodiment, the dsRNA of stabilization or siRNA molecule can be impregnated in insect food, perhaps can be coated over the top of the food of insect consumption.A part of the present invention also provides and has been used for sending the delivery system that send that is delivered to insect with insect-controlling agent, this be by: they are exposed to microorganism or the host of containing insect-controlling agent of the present invention, for example, plant, this realizes by ingested microorganisms or host cell or entocyte.In another kind of embodiment, the present invention relates to prepare transgenic plant cells or plant, wherein contain the recombinant DNA construction body that can transcribe stabilization dsRNA molecule of the present invention.Phrase used herein " preparation transgenic plant cells or plant " refers to following method, it comprises and uses the recombinant DNA technology that is easy to obtain in this area (for example, see Sambrook, Deng the people), structure can be transcribed the plant conversion carrier of stabilization dsRNA molecule of the present invention, transformed plant cells or plant, and preparation contains through transgenic plant cells or transgenic plant that transcribe, stabilization dsRNA molecule.
In another embodiment, the attenuated strain of the non-virulent of microorganism can be used as the carrier of insect-controlling agent, and in this case, the microorganism of carrying this type of reagent is also referred to as insect-controlling agent.Can be in addition engineered to microorganism, make its nucleotide sequence of expressing target gene, producing following RNA molecule, described RNA molecule comprise with insect cell in typical case the RNA sequence homology or the complementary RNA sequence that exist.Insect is exposed to described microorganism, makes microorganism be ingested, and by RNA molecule or its fragment or the direct or indirect downward modulation that mediates expression of target gene of derivative.
Perhaps, the invention provides: insect is exposed to insect-controlling agent of the present invention, and described control agent is impregnated in the spray mixing device, is applied to the host, for example, and the surface of host plant.In a kind of exemplary embodiment, insect is to the picked-up of insect-controlling agent, insect-controlling agent sent be delivered to the insect digestive tube, send subsequently to be delivered in the intravital cell of insect.In another embodiment, insect-controlling agent also can allow sending of insect-controlling agent to pass by alternate manner (for example injection or other physical method) to the infection of insect.In another embodiment, RNA molecule self is packed to advance synthetic matrix, polymkeric substance for example, and be applied to the host, for example surface of plant.Insect allows insect-controlling agent to be sent to the picked-up of host cell to be delivered to insect, to cause the downward modulation to target gene among the host.
Also can predict, composition of the present invention can be impregnated in the seed of plant species, and it can be used as the expression product that is impregnated in the genomic recombination of vegetable cell, perhaps is impregnated in the coating or seed treatment that is administered to before the plantation on the seed.The vegetable cell that contains recombination is counted as transgenic event in this article.
Think that insecticidal seed treatment can provide significant advantage when with the transgenic event combination of the provide protection of the invasion and attack that are provided for resisting coleopteran pest, described incident is in the preferred validity scope at the target insect.In addition, we believe, and are as well known to those skilled in the art, have following situation, and wherein, this type of transgenic event that has in preferred validity scope is favourable.
A part of the present invention provides a kind of delivery system that send, and is used for sending to insect passing insect-controlling agent.Stabilization dsRNA of the present invention or siRNA molecule can be introduced directly into the cell of insect, perhaps be incorporated into the recycle system of extracellular chamber, interstitial space, lymphsystem, Digestive tract, insect, this is undertaken by orally ingestible or utilizable other means of those skilled in the art.Be used for comprising by the method for oral introducing: RNA is directly mixed with the food of insect, and following engineering method, wherein, the species that are used as food have passed through engineered, are expressed dsRNA or siRNA, it is fed raise to be influenced insect then.In one embodiment, for example, dsRNA or siRNA molecule can mix in the insect food, or cover its surface.In another embodiment, RNA can be sprayed at plant surface.In another embodiment, can be by microbial expression dsRNA or siRNA, and microorganism can be administered to plant surface, perhaps introduce root, stem as injection by physical means.In another embodiment, can carry out genetically engineeredly, make its expression be enough to kill the dsRNA or the siRNA of the amount of known insect that can infection plant plant.
Especially, in WCR, put into practice when of the present invention, stabilization dsRNA or siRNA can be incorporated into the intravital midgut of insect, obtain the inhibition of ideal target gene.As indicated above, dsRNA or siRNA molecule can be comprised the feed thing or are covered on the food, can be absorbed by insect.Under any circumstance, dsRNA of the present invention is provided in the food of target insect.Target insect of the present invention will show about 4.5 to about 9.5 or about 5 to about 8.5 or about 6 to about 8 or about 6.5 to about 7.7 or about 7.0 digestive tube pH.The digestive tube of target insect is defined as the following position in the insect in this article, in this position, the food that insect absorbed is exposed to the environment that can help absorbing dsRNA molecule of the present invention, thereby and can not meet with extreme to making the dissociate pH of formation single chain molecule of hydrogen bond between the dsRNA two strands.
Also can predict, the available mode consistent with the conventional agriculture practice prepared the dsRNA that produces by chemistry or enzymic synthesis, used as being spray product, with the control insect infestations.Described prescription can comprise: effective blade covers required suitable tackiness agent and wetting agent, and is used to protect dsRNA to avoid the UV protective agent of UV infringement.Examples of such additives is commonly used in the biological insecticide industry, also well known to a person skilled in the art.This type of application can with other insecticide of spraying (yes or no based on biology) application combination, to strengthen plant protection, exempt from insect and ingest.
The present inventor considers that the bacterial isolates of producing insecticidal protein can be used to produce the dsRNA that is used for insect control purpose.These bacterial strains can show the insect control character of raising.Multiple different host bacterium can be used to produce insect control dsRNA.Exemplary bacterium can comprise intestinal bacteria, bacillus thuringiensis, pseudomonas kind, polished rod bacterial classification, Xenorhabdus kind, have a liking for worm Serratia and relevant Serratia kind, Bacillus sphaericus, bacillus cereus, bacillus laterosporus, Japanese beetle genus bacillus, clostridium bifermentans and other clostridium kind, or other forms the gram positive bacterium of spore.In certain embodiments, bacterium can be engineered, is used for Pest Control, as mosquito.
The invention still further relates to and be used for the recombinant DNA construction body of expressing in microorganism.Can use methods known in the art, can transcribe the exogenous nucleic acid that obtains interested RNA and introduce microbial host cell, for example, bacterial cell or fungal cell.
Nucleotide sequence of the present invention can be introduced in the protokaryon and eucaryon host of wide scope, produces stabilization dsRNA or siRNA molecule.Term " microorganism " comprises protokaryon and eukaryotic microorganisms species, for example bacterium, fungi and algae.Fungi comprises yeast and filamentous fungus etc.Exemplary prokaryotic organism, existing Gram-negative also has gram-positive, comprises enterobacteriaceae, for example Escherichia, erwinia, Shigella, salmonella and proteus; Bacillaceae; Rhizobiaceae, for example rhizobium; Spirillaceae, for example photobacteria genus, fermentation monospore Pseudomonas, serratia, Aeromonas, Vibrio, Desulfovibrio, spirillum; Lactobacillaceae; Pseudomonadaceae, for example Rhodopseudomonas and genus acetobacter; Azotobacteraceae, Actinomy cetaceae and Nitrobacteraceae.Eukaryote comprises fungi, for example phycomyces, and ascomycetes, and it comprises yeast, for example, saccharomyces and Schizosaccharomyces; And basidiomycetes, for example, Rhodotorula, Aureobasidium, Sporobolomyces etc.
With regard to the purpose of the anti-insect of protective plant, a large amount of microorganisms of known blade face (surface of plant leaf) that inhabits the important farm crop of multiple difference and/or rhizosphere (soil around the plant root) also can be to be used for recombinant precursor disclosed herein is handled, breeds, preserves, sent and pass and/or the desirable host cell of mutagenesis.These microorganisms comprise bacterium, algae and fungi.Interested especially is microorganism, for example, bacterium, for example following genus: bacillus (comprises following kind and subspecies: bacillus thuringiensis Ku Er Stark HD-I subspecies, bacillus thuringiensis Ku Er Stark HD-73 subspecies, thuringiensis cladosporioides bacillus abrupt inverted sublow specie, those subspecies of bacillus thuringiensis Berlin, bacillus thuringiensis Su Yun gold subspecies, many nests of bacillus thuringiensis subspecies, bacillus thuringiensis pine another name for Sichuan Province subspecies, bacillus thuringiensis A Lai subspecies, bacillus thuringiensis galleria mellonella waxmoth subspecies, Bacillus thuringiensis subsp.aizawai, the inferior malicious subspecies of bacillus thuringiensis, bacillus thuringiensis desinsection subspecies, bacillus thuringiensis tenebrionis subspecies and bacillus thuringiensis San Diego subspecies); Rhodopseudomonas, erwinia, serratia, the white Bordetella of Cray, xanthomonas, streptomyces, rhizobium, Rhodopseudomonas is had a liking for the methyl Pseudomonas, Agrobacterium, genus acetobacter, lactobacillus, genus arthrobacter, Azotobacter, leuconos toc and Alcaligenes; Fungi, particularly yeast, for example, following genus: saccharomyces, Cryptococcus, Crewe Vickers yeast belong, Sporobolomyces, Rhodotorula and Aureobasidium.Interested especially is bacterial species around this type of plant, pseudomonas syringae for example, Pseudomonas fluorescens, serratia marcescens, acetobacter xylinum, Agrobacterium tumefaciens, the red bacterium of class ball, xanthomonas campestris, rhizobium melioti, Alcaligenes eutrophus and Wei Nielande vinelandii; And the yeast species around the plant, for example, rhodothece rubra, gluing rhodotorula, Rhodotorula marina, orange rhodotorula, shallow white Cryptococcus, wandering Cryptococcus, sieve Lun Shi Cryptococcus, the Luo Qian sugar yeast, kind ground sugar yeast, Saccharomyces cerevisiae, red shadow yeast, fragrance shadow yeast, Buddhist ground Crewe Vickers yeast and aureobasidium pullulans.
D. transgenic plant
The invention provides the seed and the plant that have above one or more transgenic events.The combination of described incident is called as " piling up " transgenic event.The described transgenic event that piles up can be the incident at same target insect, and perhaps they can be at different target insects.In one embodiment, seed with ability of expressing nucleic acid provided herein also has the ability of expressing at least a other insecticide, it includes but not limited to following RNA molecule, the sequence of the RNA that expresses in the next comfortable target insect of the sequence of described RNA molecule, when expressing at seed or from the vegetable cell that seed grows, it forms the double-stranded RNA structure, wherein, the target insect has caused preventing rna expression in the target insect cell to the picked-up of one or more cells of plant.
In certain embodiments, have the transgenic event that the herbicide tolerant of providing also is provided for the seed of expressing following dsRNA ability, the sequence of described dsRNA is from the target insect.A useful example of herbicide tolerant gene provides glyphosate, i.e. the resistance of N-(phosphonomethyl) glycine (the isopropyl amine salt form that comprises this type of weedicide).
In the method for the invention; transgenic seed or the expression and combination of from the plant of seed growth, killing the dsRNA of insect amount with some chemistry or albumen pesticide treatments seed or plant; can be used to provide unexpected collaborative advantage, comprise that the transgenic plant that protection obtains avoid the unexpected superior effectiveness that the target insect damages.In specific embodiments; with the sterilant of the about 100gm of every 100kg seed to about 400gm; handle expressing some transgenic seed that can form the construct of dsRNA molecule (its sequence is that one or more sequences of expressing obtain) from corn rootworm, the beyond thought outstanding protection of anti-corn rootworm is provided.In addition, think that this type of makes up also the effectively infringement of anti-other insect of plant of the protection emergency state.Seed of the present invention also is used to reduce the sterilant use cost, because than the situation of not using described method, for obtaining the protection of requirement, can use sterilant still less.In addition, because used sterilant still less, and because its application before plantation, there is not independent land for growing field crops to use, we believe that method of the present invention is therefore all safer for operator and environment, and more cheap than traditional method potentially.
" work in coordination with " expression and comprise the combination acts synergistically of the combination of transgenic event and sterilant for insecticidal activity (or effectiveness).But, this does not represent this type of synergy is restricted to insecticidal activity, they also should comprise following beyond thought advantage, for example, reduction, the distribution of sterilant environment of the field of activity that increases, favourable activity profile (being relevant to type and quantity that infringement reduces), sterilant and application cost reduces, sterilant reduces to the personnel's of production operation and maize planting seed exposure, and other advantage well known by persons skilled in the art.
Can be used for sterilant and the insecticide (comprising) in the composition with method and composition of the present invention combination and use this type of method for compositions can be at for example U.S. Patent number 6 as seed treatment and coating, 551, find in 962, it incorporates this paper in full by reference into.
Though think that seed treatment can be applied to the transgenic seed that is in any physiological status, preferably, seed is in the state of enough lasting stabilities, can not infect induced damage resistive in treating processes.Typically, seed can be from land for growing field crops results, under removing from transgenic plant and with any other non-spermatophyte material separation.Preferably, seed also will be stabilized to following degree biologically, promptly make processing can not cause the biology infringement to seed.In one embodiment, for example, handle may be used on the following corn seed, described seed is gathered in the crops, is cleaned and be dried to water content by weight less than about 15%.In another embodiment, seed can be following seed: it is dried, and then coats water and/or other material, carries out drying more then before with pesticide treatments or during handling.In the restriction of describing, think and in any time between results seed and the sowing seed processing to be administered on the seed.Term used herein " unseeded seed " is used to comprise: be in seed results and any period between ground sowing seed (for the purpose of plant germination and growth).When mentioning unseeded seed by sterilant " processing ", this type of processing is not used in and comprises following operation: wherein, sterilant is applied to soil, but not is administered to seed.For example, with planting seed in, in soil band, " T " band or ditch dug with a plow, use this type of and handle, do not think that the present invention is included.
The combination of sterilant or sterilant can be used " purely ", that is, and and without any dilution or there is other component.But typically, sterilant is administered on the seed with the form of insecticidal formulation.This prescription can contain one or more other components of wanting; it includes but not limited to; liquid diluent is used as the tackiness agent of pesticide substrate, is used for the filler of protection seed under stress conditions and the softening agent that is used to improve coating elasticity, adhesion and/or ductility.
Sterilant of the present invention can be used as the component applied of seed coating to seed.One of embodiment by adding sterilant combination of the present invention can use seed coating process known in the art and composition after improveing.For this class coating process and the equipment of its application is disclosed, for example, U.S. Patent number 5,918 is in 413,5,891,246,5,554,445,5,389,399,5,107,787,5,080,925,4,759,945 and 4,465,017.The seed coating composition is disclosed, and for example U.S. Patent number 5,939, and 356,5,882,713,5,876,739,5,849,320,5,834,447,5,791,084,5,661,103,5,622,003,5,580,544,5,328,942,5,300,127,4,735,015,4,634,587,4,383,391,4,372,080,4,339,456,4,272,417 and 4,245, in 432 grades.
The sterilant that uses in coating is those sterilants as herein described.The amount of the sterilant that uses in the processing to seed will depend on the type of seed category and activeconstituents and change, but described processing will comprise, and the sterilant combination that seed and desinsection are effectively measured contacts.When insect is the target insect, described amount will be the amount of the effective insecticide of desinsection.Insecticidal effective dose used herein represents that the amount of insecticide can be killed the larva or the insect in pupa stage that is in growth, perhaps with continuous decrease or postpone the amount of the infringement that insect pest produces.
Usually, the amount of the sterilant of using to seed in the processing changes in following ranges: for every 100kg seed weight, approximately 100gm is to the pesticide active ingredient of about 2000gm.Preferably, the amount of sterilant is in following ranges: for the activeconstituents of the about 50gm of every 100kg seed to about 1000gm; More preferably, in following ranges: for the activeconstituents of the about 100gm of every 100kg seed to about 600gm; Further more preferably, in following ranges: for the activeconstituents of the about 200gm of every 100kg seed to about 500gm.Perhaps, the amount that has been found that the sterilant of the pesticide active ingredient that surpasses about 60gm for every 100kg seed is preferred, more preferably, surpasses about 80gm (every 100kg seed).
The sterilant that is used for handling must can not suppress seed germination, and should can cause the period to seed or plant damage in target insect life cycle, effectively protects seed and/or plant.Usually, after planting, coating will be effectively about 0 to 120 day.Sterilant of the present invention can be administered on the seed with the form of coating.
Advantage of the present invention can include but not limited to: be easy to dsRNA is introduced insect cell, can use the dsRNA of lower concentration, the stability of dsRNA and the validity that suppresses.Use ability lower concentration, stabilization dsRNA to avoid a lot of shortcomings of antisense interferential.The present invention is not restricted to external use, or be restricted to special sequence composition, the group of specific target gene, the specific part of target gene nucleotide sequence, or specific transgenosis or the specific method of passing of sending, this be with obtainable method known in the art in some, for example, antisense and suppress altogether opposite.In addition, genetic manipulation and the biology of non-classical genetic model in also be feasible.
In to practice of the present invention, can select, harmless with existing of the nucleotide sequence guaranteeing to transcribe from recombinant precursor for non-insect cell.This can be by target corresponding gene has low degree sequence identity in fixed and plant or the vertebrates gene realize.Preferably, sequence identity degree is less than about 80%.More preferably, sequence identity degree is less than about 70%.Most preferably, sequence identity degree is less than about 60%.
Except plant directly being transformed, can hybridize with second kind of plant that lacks this construct by first kind of plant that will have the recombinant DNA construction body and prepare transgenic plant with the recombinant DNA construction body.For example, be used for the recombinant DNA that gene prevents and can be introduced in the first kind of plant strain, described strain transforms easily, generation can with the transgenic plant of the second kind of plant incross, gradually be seeped into the second kind of plant strain will be used for the recombinant DNA that gene prevents.
In practice, the present invention can with other insect control proterties combination in the plant, be used to increase proterties with what obtain to want to the control of insect infestations.With utilizing the insect control proterties combination of different binding modes, the transgenic plant of protecting at insect can be provided, it has outstanding endurance than the plant of using single insect control proterties, reduces because develop the probability that resistance in the field.
In the past many decades, the proteic insect mechanism of killing of bacillus thuringiensis crystal has been carried out extensive studies.Show that only after picked-up albumen, crystallin just can be poisonous to the larva form of insect.In coleoptera larvae, alkaline pH in the insect midgut and proteolytic ferment meeting soluble protein make the deleterious component of insect is discharged thus.These toxic components destroy midgut epithelial cells, cause insect to stop to ingest, and final, cause insect death.Former at this point thereby speech, verified bacillus thuringiensis toxin be from being effectively in the process of handling the various insects insect, and be environmentally safe insecticide.Coleoptera and hemipteran, and most likely, Diptera, lygus bug and other boring formula and suctorial type insect have shown the enteron aisle pH of little acid are so it is inoperative to above-mentioned insect effectively to keep out the Bt toxin of coleoptera larvae.The enteron aisle pH of the little acid of these insects is also believed it is more useful to composition of the present invention, do not desiring to be restricted under the situation of particular theory, seem, the alkaline pH of coleoptera larvae enteron aisle be before attempt show reason (people's U.S. Patent number 6 such as Fire of the trial failure of dsRNA effect, 506,559; People's patent publication No. US2003/0150017 such as Mesa; People such as Rajagopal, 2002; People such as Tabara, 1998).Therefore we believe that dsRNA method disclosed herein should preferentially be used for controlling plant and the composition of Coleoptera, Diptera, Hemiptera, lygus bug, boring formula and suctorial type insect.Method and composition shown in this paper is particularly useful in target and fixs the gene of stating in the insect and prevent, and described insect shows about 4.5 to about 9.5, about 5.0 to about 9.0, about 5.5 to about 8.5, about 6.0 to about 8.0, about 6.5 to about 7.7 or about 6.8 to about 7.6 or about 7.0 enteron aisle pH.But, show about 7.5 to about 11.5, or about 8.0 to about 11.0, or the insect of about 9.0 to about 10.0 enteron aisle pH and other pest species, for example the coleopteron larva also falls within the scope of the present invention.When in larva food, providing when being specific to the dsRNA that suppresses the coleoptera larvae gene with one or more Bt albumen, this is especially correct, when providing with threshold value or the level that is higher than threshold value, Bt albumen can be according to conventional route to this coleoptera larvae toxigenicity.Have the existence of toxic one or more Bt toxin for insect species of the same race, will effectively reduce enteron aisle pH, provide stable environment, to apply their restraining effect to the insect pest target gene at double stranded rna molecule.
Can predict, the combination of some stabilization dsRNA construct and one or more insects control protein gene will produce synergy, can strengthen the insect control phenotype of transgenic plant.When the insect biological assay that utilizes artificial food or whole plants tissue to carry out can be used for determine using dsRNA and insect control albumen for larval mortality or growth inhibiting dose response.Those skilled in the art can be checked the mixture of dsRNA molecule and insect protein in biological assay; to identify active combination; described combination is to have synergitic and be (Tabashnik, 1992) that people want at the application in the insect protective plant.Reported the synergetic property (summarizing referring to people such as Schnepf 1998) of kill insects insect between the different insect control albumen.Can predict, have synergetic property between some dsRNA and between some dsRNA and some insect control albumen.
The invention still further relates to the agricultural-food goods that contain one or more sequences of the present invention, and the agricultural-food goods of making from the recombinant plant that contains one or more nucleotide sequences of the present invention or seed, they as embodiments of the present invention by particularly including.The agricultural-food goods that contain one or more sequences of the present invention include but not limited to; the meal of plant, oil, grain that pulverize or whole or seed; perhaps comprise any meal, the oil of recombinant plant or seed, any food of grain that pulverize or whole, described recombinant plant or seed contain one or more sequences of the present invention.In one or more agricultural-food that this paper comprises or agricultural-food goods, the detection of one or more sequences of the present invention is proved, agricultural-food or agricultural-food goods are made of transgenic plant, described transgenic plant are designed to express one or more nucleotide sequences of the present invention, are used for preventing method to control the purpose of insect infestations by the gene that uses the dsRNA mediation.
D. obtain nucleic acid
The present invention also provides a kind of method, is used to obtain to comprise the nucleic acid of the nucleotide sequence of producing dsRNA or siRNA.In one embodiment, described method comprises: (a) survey cDNA or gDNA library with hybridization probe, described probe comprises all or part of from the nucleotide sequence of the fixed insect of target or its homologue; (b) identify can with the dna clone of hybridization probe hybridization; (c) dna clone of identifying in the separating step (b); And (d) cDNA or the gDNA fragment that is included in isolating clone in the step (c) checked order, wherein, the nucleic acid molecule of order-checking can the transcribe rna nucleotide sequence or the whole or major portion of its homologue.
In another embodiment, the method that is used to obtain nucleic acid fragment (nucleotide sequence that wherein comprises the major portion that is used for production dsRNA of the present invention or siRNA) of the present invention comprises the steps: that (a) synthesizes first and second Oligonucleolide primers, their a part of corresponding with from one of nucleotide sequence of the fixed insect of target; And first and second Oligonucleolide primers that (b) use step (a), the cDNA or the gDNA that exist in the amplification cloning vector insert, and wherein, the nucleic acid molecule of amplification can be transcribed the major portion of dsRNA of the present invention or siRNA.
In to practice of the present invention, target gene can be from corn rootworm (CRW), and for example WCR or SCR obtain, perhaps from causing crop plants to be compromised and any insect species of subsequently the underproduction obtains.It is considered herein that some kinds of standards can be used to select preferred target gene.Described gene is such gene: its protein product has renewal rate fast, makes dsRNA suppress to cause the quick reduction of protein level.In some embodiments, it is favourable selecting for use a small amount of decline of expression level can cause the gene to the deleterious effect of insect.Decide the wide spectrum insect species if think target, will be chosen in the gene of high conservative between these species so.On the contrary, in order to bring specificity, In some embodiments of the present invention, select to contain between various insect species or between insect and other biology, guard the gene in the low zone of degree.In some embodiments, selecting not have the gene of the known homologue of other biology is that people want.
Term used herein " derives from " and refers to, can from specific special source or the special nucleotide sequence that obtains of species, though need not be directly from these special source or species.
In one embodiment, select the gene of in the insect digestive tube, expressing for use.Target fixes on the needs that the gene of expressing in the digestive tube has avoided scattering in insect inside dsRNA.Being used for target gene of the present invention can comprise, for example, and with the remarkable homologous of nucleotide sequence of the known digestive tube expressing gene of the protein ingredient of coding vacuole and plasma membrane proton V-ATP enzyme those (people such as Dow, 1997; Dow, 1999).This protein complexes is unique energy supplier of epithelial cell ion transport, the alkalization of enteric cavity in being responsible for.The V-ATP enzyme is also expressed in Ma Er scytoblastema (Malpighian) pipe, the outside grower (outgrowth) that described Ma Er scytoblastema pipe is the insect hindgut, its with the similar mode of Mammals kidney organ, in fluid balance and detoxifcation, play a role to xenobiontics.In another embodiment, the V-ATP enzyme can be Vha68-2 or its homologue or directly to homologue (for example, SEQ ID NO:821).
The gene of in another embodiment, select main involved in insect growth for use, growing and breeding.Exemplary gene includes but not limited to that CHD3 gene, 'beta '-tubulin gene and coded prediction participate in the proteic gene of transhipment.CHD3 genes encoding in the drosophila melanogaster has the active albumen of ATP dependent form DNA helicase, and assembling is assembled/separated to its chromatin that participates in the nucleus.Similarly sequence also is found in the multiple biology, for example Arabidopis thaliana, caenorhabditis elegant and Saccharomyces cerevisiae.The albumen that 'beta '-tubulin gene family coding is relevant with microtubule, described albumen is the component part of cytoskeleton.Correlated series also is found in the multiple biology, for example caenorhabditis elegant and maduca sexta.Prediction is as the albumen (Babst et al., 2002) of the subunit of the required interior body sorting mixture of transhipment (ESCRT)-III, and for example Dv49 is present in the multiple biology, comprises Mammals, yeast and insect, as D.virgifera.Another kind of transfer related protein is β-coatmer albumen, is abbreviated as β ' Cop, and its coding participates in the product of retrograde (golgi body is to endoplasmic reticulum) transhipment.In caenorhabditis elegant and D.virgifera, all differentiated sequence similar or prediction, as Dv248 (SEQID NO:.
Being used for other target gene of the present invention can comprise, for example, and those that in survival, growth, growth, breeding and infectivity, play an important role.These target genes can be one of the following: the lethality in house-keeping gene, transcription factor and insect specific gene or the fruit bat knocks out sudden change.The target gene of Shi Yonging can also be from those of other biology in the present invention, for example, and from nematode (for example caenorhabditis elegant).In addition, being used for nucleotide sequence of the present invention also can be from plant, virus, bacterium or fungal gene, and the function of described gene has been established in document, and target gene has remarkable similarity in its nucleotide sequence and the insect genes group.According to an aspect of the present invention, for WCR control, target sequence can obtain from target WCR insect substantially.Coding is segmental with known protein homologous D.v.virgifera albumen or its, can find from sequence table from some exemplary target sequences in WCR cDNA library.The nucleic acid molecule from D.virgifera of homologue of coding known protein is known people such as (, U.S. Patent Application Serial 10/205,189) Andersen.
With regard to purpose of the present invention, dsRNA or siRNA molecule can obtain from CRW, and this is by the target CRW gene order or its part that derive from corn rootworm gDNA or cDNA library are carried out polymerase chain (PCR TM) amplification realizes.Can prepare the WCR larva with the known method of those of ordinary skills, can extract DNA/RNA.The larva of different sizes can be used for purpose of the present invention from the 1st age to the CRW that grows up to fully, carry out DNA/RNA and extract.The genomic dna or the cDNA library that produce from WCR can be used to PCR TMAmplification is to produce dsRNA or siRNA.
Can use the method that obtains easily in this area then, target gene is carried out PCR TMAmplification and order-checking.Those skilled in the art can be to PCR TMCondition is changed, to guarantee optimum PCR TMProduct forms.PCR through checking TMProduct can be used as template, is used for transcribing in the body, and what have the minimal promoter of being included with generation has justice and a sense-rna.
The present inventor considers, identifies and isolated nucleic acid sequences can be used for the present invention from any insect species of insect circle, with control WCR and other target insect.In one aspect of the invention, nucleic acid can derive from the Coleoptera species.Especially, nucleic acid can derive from and belong to the chrysomelid of chrysomelid genus (Coleoptera, Chrysomelidae), and more particularly, nucleic acid molecule of the present invention can derive from the virgifera group.The most especially, nucleic acid of the present invention derives from Diabrotica virgifera virgiferaLeConte, and it is commonly called WCR.Can be used for through isolating nucleic acid, for example identify target gene, and make up recombinant vectors, described carrier can be produced stabilization dsRNA of the present invention or siRNA, is used for protective plant and keeps out the WCR insect infestations.
Therefore, in one embodiment, the present invention comprises from the separation of WCR or lygus bug and the nucleotide sequence of purifying, and it can be used as insect-controlling agent.Nucleotide sequence through separation and purifying can comprise those that list in the sequence table.
From WCR or other insect, can be used for nucleic acid of the present invention and also can comprise through separating and highly purified Unigenes and EST nucleic acid molecule or its nucleic acid fragment molecule.The EST nucleic acid molecule can coded polypeptide marking area, perhaps in fact, the major part of polypeptide.Perhaps, described fragment can comprise littler oligonucleotide, and described oligonucleotide has about 15 to about 250 nucleotide residues, and more preferably, about 15 to about 30 nucleotide residues.Perhaps, being used for nucleic acid molecule of the present invention can be from the cDNA library of WCR, lygus bug or any other coleopteran pest species.
Can be used to obtain other nucleic acid molecule from the nucleic acid molecule of WCR or other coleopteran pest species and its fragment, be used for the present invention, dsRNA and the siRNA molecule wanted with generation from other species.This type of nucleic acid molecule comprises following nucleic acid molecule, the proteinic complete encoding sequence of described nucleic acid molecule encoding, and the promotor of this quasi-molecule and flanking sequence.In addition, this type of nucleic acid molecule comprises: encoding gene family member's nucleic acid molecule.Use above-mentioned nucleic acid molecule or its fragment to go to screen for example cDNA or the gDNA library as obtaining, can must obtain this quasi-molecule easily from Lygus hesperus from D.v.virgifera or other Coleoptera species.The method that is used to make this type of library is well known in the art.
Phrase used herein " encoding sequence ", " structure nucleotide sequence " or " structure nucleic acid molecule " refer to, place proper regulation sequence to control following time, can be translated into the nucleotide sequence of polypeptide, and this is undertaken by mRNA usually.The border of encoding sequence is to be determined by 5 ' terminal translation initiation codon and 3 ' terminal translation stop codon.Encoding sequence can include but not limited to, genomic dna, cDNA, EST and recombinant nucleotide sequence.
Term " recombinant DNA " or " recombinant nucleotide sequence " refer to, contain the DNA that genetic engineering is modified, and described modification is to be undertaken by the manipulation of mutagenesis, restriction enzyme etc.
So a lot of in the insect of the potential target controlled by the present invention, the information of the phenotype that obtains about the sequence of most of genes with from the sudden change to specific gene may be limited.Therefore, the inventor considers, select suitable gene from insect pest and be used for process of the present invention, can can be to model animals (for example fruit bat) by using, some other insect species, perhaps in addition the information that the research of corresponding gene obtains in the nematode species, fungal species, plant species (corresponding gene in these species is characterized) carry out.In some cases, may by use from, for example sequence or the gene name of fruit bat, other insect, nematode, fungi or plant (wherein having cloned gene), searching database, GenBank for example obtains the sequence of target insect corresponding gene.In case obtained sequence, can use PCR TMIncrease gene fragment in the insect of selecting suitably is used for the present invention.
In order to obtain dna fragmentation, design PCR based on the sequence of in other insect that WCR or gene have been cloned, finding from corresponding gene in the insect species TMPrimer.Primer is designed to: the dna fragmentation of the sufficient length that can increase is used for the present invention.DNA (genomic dna or cDNA) preparation is used PCR from insect species TMPrimer comes amplification of DNA fragments.Amplification condition is selected to be: even can not accurately mate under the situation of target sequence at primer, amplification also can be carried out.Perhaps, can use WCR gene or other known insect genes, from the gDNA or the cDNA library of insect pest species, clone gene (or its part) from preparation as probe.Be used to implement PCR TMWith the technology of from the library, cloning be known.Based on the gene order that clones from WCR or other insect species in the past, the further details of the segmental method of DNA isolation provides in an embodiment to some extent from the target insect pest.Persons of ordinary skill in the art will recognize that multiple different technology can be used for from the insect pest species, isolating with in the past from the corresponding gene fragment of the isolating gene of other species kind.
When insect was target insect of the present invention, this class pest included but not limited to, from lepidopteran (Lepidoptera), for example,
Acleris spp (Acleris spp.), Adoxophyes spp (Adoxophyes spp.), clearwing moth (Aegeria spp.), noctuid (Agrotis spp.), cotton leaf ripple noctuid (Alabamaargillaceae), Amylois spp., Anticarsia (Anticarsia gemmatalis), yellow volume moth (Archips spp), Argyrotaenia spp (Argyrotaenia spp.), Autographa spp (Autographa spp.), Busseola fusca (Busseola fusca), Cadra cautella (Cadra cautella), Carposinanipponensis, striped rice borer (Chilo spp.), Choristoneura spp (Choristoneura spp.), Clysiaambiguella, Cnaphalocrocis spp (Cnaphalocrocis spp.), volume moth (Cnephasia spp.), Cochylisspp (Cochylis spp.), casebearer (Coleophora spp.), Crocidolomia binotalis, Apple abnormity steinernema (Cryptophlebia leucotreta), steinernema (Cydia spp.), Diatraea spp (Diatraea spp.), Diparopsis castanea (Diparopsis castanea), real moth (Eariasspp.), Cadra cautella (Ephestia spp.), Eucosmaspp (Eucosma spp.), Eupoeciliaambiguella, euproctis pseudoconspersa (Euproctis spp.), cutworm (Euxoa spp.), small kernel-eating insect (Grapholita spp.), Hedya nubiferana, noctuid (Heliothis spp.), Hellula undalis (Hellula undalis), fall webworms (Hyphantria cunea), Keiferia lycopersicella (Keiferialycopersicella), pear leaf blister moth (Leucoptera scitella), thin moth (Lithocollethis spp.), Lobesia botrana, poison moth (Lymantria spp.), lyonetid (Lyonetia spp.), tent caterpillar (Malacosoma spp.), lopper worm (Mamestra brassicae), maduca sexta (Manducasexta), geometer (Operophtera spp.), Pyrausta nubilalis (Hubern). (Ostrinia Nubilalis), super steinernema (Pammene spp.), brown volume moth (Pandemis spp.), small noctuid (Panolis flammea), Pectinophora gossypiella (Pectinophora gossypiella), potato tuberworm (Phthorimaeaoperculella), pieris rapae Japan subspecies (Pieris rapae), Fols Picridis fuscipilosae (Pieris spp.), diamond-back moth (Plutella xylostella), ermine moth (Prays spp.), white snout moth's larva (Scirpophaga spp.), pink rice borer (Sesamia spp.), long palpus volume moth (Sparganothis spp.), noctuid (Spodoptera spp.), Synanthedon spp (Synanthedon spp.), band moth (Thaumetopoea spp.), leaf roller (Tortrixspp.), cabbage looper (Trichoplusia ni) and ermine moth (Yponomeuta spp.);
From Coleoptera (Coleoptera), for example,
Wireworm (Agriotes spp.), Anthonomus spp (Anthonomus spp.), Atomaria linearis (Atomaria linearis), Chaetocnema tibialis (Chaetocnema tibialis), weevil (Cosmopolites spp.), fruit resembles (Curculio spp.), khapra beetle (Dermestes spp.), chrysomelid (Diabrotica spp.), Epilachna spp (Epilachna spp.), Eremnus spp., colorado potato beetles (Leptinotarsa decemlineata), rice resembles (Lissorhoptrus spp.), the melolonthid (Melolontha spp.), Orycaephilus spp., Otiorhynchus spp (Otiorhynchus spp.), Phlyctinus spp., Popillia spp (Popillia spp.), flea beetle (Psylliodes spp.), lesser grain borer (Rhizopertha spp.), Scarabeidae (Scarabeidae), rice weevil (Sitophilus spp.), gelechiid (Sitotroga spp.), mealworm (Tenebrio spp.) is modeled one's literary or artistic style on that of the ancients robber (Tribolium spp.) and khapra beetle (Trogoderma spp.);
From Orthoptera (Orthoptera), for example,
Lian (Blatta spp.), little Lian (Blattella spp.), mole cricket (Gryllotalpa spp.), leucophaea maderae (Leucophaea maderae), migratory locusts (Locusta spp.), big Lian (Periplaneta ssp.), and grasshopper (Schistocerca spp.);
From Isoptera (Isoptera), for example,
Reticulitemes spp (Reticulitemes spp);
From Corrodentia (Psocoptera), for example,
Booklice (Liposcelis spp.);
From Anoplura (Anoplura), for example,
Blood lice (Haematopinus spp.), Linognathus spp (Linognathus spp.), lice (Pediculusspp.), pemphigus (Pemphigus spp.) and Phylloxera (Phylloxera spp.);
From Mallophaga (Mallophaga), for example
Damalinea spp. and nibble a mao lice (Trichodectes spp.);
From Thysanoptera (Thysanoptera), for example,
Flower thrips (Franklinella spp.), Hercinothrips spp (Hercinothrips spp.), Taeniothrips spp (Taeniothrips spp.), thrips (Thrips palmi), onion thrips (Thrips tabaci) and Scirtothrips aurantii (Scirtothrips aurantii);
From Heteroptera (Heteroptera), for example,
Bedbug (Cimex spp.), Distantiella theobroma (Distantiella theobroma), mock-strawberry (Dysdercus spp.), Euchistus spp., Eurygasterspp (Eurygaster spp.), Leptocorisa spp (Leptocorisa spp.), green stinkbug (Nezara spp.), lace bug (Piesma spp.), phodnius prolixus (Rhodnius spp.), Sahlbergella singularis (Sahlbergella singularis), black stinkbug (Scotinophara spp.), triatome bug (Triatoma spp.), the Miridae species, for example beanpod lygus bug and America tarnished plant bug, Lygaeidae species, for example America rough rice bar chinch bug and Pentatomiddae species;
From Homoptera (Homoptera), for example,
Wolly whitefly (Aleurothrixus floccosus), Aleyrodes brassicae, Aspidiotus (Aonidiella spp.), Aphidiadae (Aphididae), aphid (Aphis spp.), Aspidiotus (Aspidiotus spp.), Bemisia tabaci (Bemisia tabaci), lecanium (Ceroplaster spp.), Chrysomphalus aonidium (Chrysomphalus aonidium), Chrysomphalus dictyospermi (Chrysomphalusdictyospermi), Coccushesperidum (Coccus hesperidum), Empoasca spp (Empoasca spp.), Apple woolly aphid (Eriosoma larigerum), Erythroneura spp (Erythroneura spp.), Gascardiaspp., plant hopper (Laodelphax spp.), Lacanium comi, Lepidosaphesspp (Lepidosaphesspp.), Macrosiphus spp (Macrosiphus spp.), knurl aphid (Myzus spp.), Nehoteftix spp., plant hopper (Nilaparvata spp.), Paratoria spp., Pemphigus spp (Pemphigus spp.), mealybug (Planococcus spp.), white a red-spotted lizard (Pseudaulacaspis spp.), mealybug (Pseudococcusspp.), wood louse (Psylla ssp.), Pulvinaria aethiopica, Aspidiotus (Quadraspidiotusspp.), Rhopalosiphum spp (Rhopalosiphum spp.), helmet a red-spotted lizard (Saissetia spp.), leafhopper (Scaphoideus spp.), Schizaphis spp (Schizaphis spp.), Sitobion spp., greenhouse whitefly (Trialeurodes vaporariorum), Trioza erytreae and Unaspis citri (Unaspis citri);
From Hymenoptera (Hymenoptera), for example,
Acromyrmex, leaf cutting ant (Atta spp.), Cephus spp (Cephus spp.), sawfly (Diprion spp.), Diprionidae (Diprionidae), Gilpinia polytoma (Gilpiniapolytoma), real honeybee (Hoplocampa spp.), black ant (Lasius spp.), Monomoriumpharaonis, Neodiprion spp (Neodiprion spp), water ant (Solenopsis spp.) and wasp (Vespa ssp.);
From Diptera (Diptera), for example,
Yellow-fever mosquito (Aedes spp.), Antherigona soccata, Bibio hortulanus, calliphora erythrocephala (Calliphora erythrocephala), Ceratitis spp (Ceratitis spp.), gold fly (Chrysomyiaspp.), culex (Culex spp.), yellow fly (Cuterebra spp.), big trypetid (Dacus spp.), fruit bat (Drosophila melanogaster), latrine fly (Fannia spp.), stomach fly (Gastrophilusspp.), tsetse fly (Glossina spp.), torsalo (Hypoderma spp.), Hyppobosca spp., Liriomyza (Liriomysa spp.), lucilia (Lucilia spp.), the fly (Melanagromyza spp.) of diving, house fly (Musca ssp.), botfly (Oestrus spp.), Orseolia spp., Oscinella frit (Oscinella frit), Pegomyia hyoscyami (Pegomyia hyoscyami), wheat fly (Phorbia spp.), Apple trypetid (Rhagoletis pomonella), pool fly (Sciara spp.), chela fly (Stomoxysspp.), horsefly (Tabanus spp.), Tannia spp. and Tipula spp (Tipula spp.)
From Siphonaptera (Siphonaptera), for example,
C. leaf flea (Ceratophyllus spp.) and Xenopsyllacheopis (Xenopsylla cheopis), and
From Thysanura (Thysanura), for example,
Silverfiss (Lepisma saccharina).
Have been found that working as insect pest is chrysomelid species, particularly working as insect is Diabroticavirgifera virgifera (western corn rootworm, WCR), Diabrotica barberi (northern corn rootworm, NCR), Diabrotica virgifera zea (zea mexicana rootworm, MCR), Diabroticabalteata (Brazilian corn rootworm (BZR) or the Brazilian corn rootworm complex body of forming by Diabrotica viridula and Diabroticaspeciosa (BCR)), or Diabroticaundecimpunctata howardi (southern corn rootworm, SCR) time, the present invention is effective especially.
Embodiment
The contriver has identified the method that is used to control the coleopteran pest invasion and attack in this article, and this is undertaken by double stranded ribonucleic acid molecule is provided in pest food.Surprisingly, the contriver discloses, when being absorbed by insect, double stranded ribonucleic acid molecule can play a role, and suppresses the biological function of insect, causes in the following characteristics one or more: the insect feed reduces, the insect survival rate reduces, insect death, and differentiation and the growth of insect are suppressed, the reduction or the disappearance of the sexual propagation ability of insect, muscle forms, the formation of neotonin, the adjusting of neotonin, ion are regulated and transhipment, the maintenance of cell membrane potential, amino acid bio is synthetic, amino acid degradation, and sperm forms, pheromone is synthetic, the pheromone sensing, and feeler forms, wing forms, and leg forms, grow and differentiation avette one-tenth, the larva maturation, digestive ferment forms, and hemolymph is synthetic, the maintenance of hemolymph, neurotransmission, cell fission, energy metabolism is breathed, apoptosis, and any component of eukaryotic cell cytoskeletal structure, for example, Actin muscle and tubulin.Any or any combination can cause the effective inhibition to the insect invasion and attack in these characteristics, under the situation of plant insect, causes the inhibition to the plant invasion and attack.For example, when being used as when offering the foodstuffs compositions of one or more double stranded ribonucleic acid molecules plant, that contain the amount that is enough to suppress insect with local mode, be used as seed treatment, as the soil application around the plant, when the recombinant DNA molecules that perhaps exists in vegetable cell comes by plant production, can unexpectedly reduce significantly the plant insect invasion and attack.When being applied to list kind insect, the embodiment shown in this paper is used to set forth the present invention.But, those skilled in the art will recognize that, method among the embodiment, prescription and idea are not made the usefulness of restriction, it can be used for consuming all lepidoptera pest species of following food source, to suppress relevant or some key characters of playing a role of portion within it with insect, described food source is to be configured to the insect inhibitor that contains q.s, and it is made of at least a or multiple double stranded rna molecule.
Embodiment 1
Be used for controlling the evaluation of the target nucleotide that the preparation of the dsRNA of corn rootworm uses
From whole larva, pupa and make up corn rootworm cDNA library from the midgut segment of cutting (LIB 149, LIB 150, LD33027, LIB3373), obtain nucleotide sequence information and (see that people such as Andersen are filed in the U.S. Patent Application Serial Number 10/205 on July 24th, 2002,189, its integral body is incorporated into this paper by reference especially).In addition, from being in different developmental phases and the whole larva of different time each etap, come the construction cDNA library, with the quantity of maximization from the different est sequences of chrysomelid species.Library LIB5444 and LIB5462 are constructed in the mRNA set that is obtained by the western corn rootworm larva from first age (1 gram) and the 3rd age (2.9 gram) respectively.By being inserted in the liquid nitrogen, that the insect that obtains is freezing rapidly.Remaining in-20 ℃ mortar and the pestle and grinding insect, temperature keeps by in refrigeration on the dry ice and/or add liquid nitrogen ground to fine powder up to tissue and realize in mortar.Use TRIzol
Figure A20068004288100511
Reagent (Invitrogen) according to manufacturers instruction, extracts RNA.(Dynal Inc. NY), according to manufacturers instruction, isolates Poly A+RNA from total RNA preparation to use Dynabeads Oligo dT.Use SuperScript TMPUC pUC (Invitrogen) comes the construction cDNA library from Poly A+RNA.Using chromatogram that cDNA is carried out size fractionation separates.The fourth stage divides and level V branch fragment is collected, and be connected into pSPORT1 carrier (Life Technologies Ind., Gaithersburg MD) between Sal1 and the Not1 restriction enzyme enzyme recognition site, transforms into intestinal bacteria DH10B electroreception attitude cell by electroporation.The first instar larvae library has produced about 420,000 colony-forming units.The third-instar larvae library has produced about 2.78 * 10 6Individual colony-forming unit.Wash bacterium colony from flat board,, pour the Tris-EDTA damping fluid again into by the short term oscillation uniform mixing from LIB 149, LIB150.In the material that washes half is loaded into 10% glycerine, divides and puts into freezing tubule, is stored in-70 ℃.Second half is used to produce plasmid DNA with Quiagen trace purification column or its equivalent.Divide the threading micro-centrifuge tube with purified plasmid DNA, be stored in-20 ℃.
In the high viscosity substratum, increase respectively from the bacterium colony of Diabrotica virgifera cDNA library LIB5444 and LIB5462.Under 37 ℃, (contain 0.3%SeaPrep agarose at the 500ml LB substratum that stirs flat board respectively
Figure A20068004288100521
With the 50mg/l Pyocianil) in, mixing from about 200,000 colony-forming units of LIB5444 with from 600,000 colony-forming units of LIB5462, cooling 1 hour rapidly in water/ice bath then makes bacterial colony evenly suspend.Make through the library of inoculation at 30 ℃ then and grew 42 hours.After the incubation, pair cell carries out 5 minutes mixing on the stirring flat board.Then in the centrifugal bottle with media transfer to two 250ml.10,000xg precipitum cell 10 minutes.From bottle, shift out substratum, cell is suspended in again in the LB substratum of 20ml altogether, wherein contain the Pyocianil of 50mg/l.Add methyl-sulphoxide to 10%, so that cell is remained freezing state.Increased in two kinds of libraries, to every milliliter 10 8The final titre of individual colony-forming unit.The sample of combination Diabroticavirgifera cDNA library LIB5444 and LIB5462, in through aseptic distillation and deionized water, it is adjusted to the DNA concentration of about 1.25 micrograms of every microlitre, divides and put into 25 freezing tubules, each freezing tubule contains the DNA of about 8.75 micrograms.Applicant/contriver on June 10th, 2004 with these sample preservations to being positioned at 10801 University Boulevard, Manassas, the American type culture collection (ATCC) of Virginia USA ZIP 20110-2209, it is called as LIB5444/62.ATCC provides preservation to prove to the applicant, and it specifies the ATCC preserving number is PTA-6072.
Substantially produce the method in corn rootworm cDNA library according to mentioned above being used to, preparation corn rootworm high molecular cDNA library, i.e. LIB5496 and LIB5498.Make up library LIB5496 and LIB5498 from the mRNA storehouse that (1 gram) western corn rootworm larva obtains by first age (1 gram) and the second and the 3rd age respectively.In brief, rapid freezing insect by milling, becomes fine powder with the refrigerated insect in mortar and pestle in liquid nitrogen.Use TRIzol
Figure A20068004288100522
Reagent (Invitrogen) according to manufacturers instruction, extracts RNA.(Dynal Inc. NY), according to manufacturers instruction, isolates Poly A+RNA from total RNA preparation to use Dynabeads Oligo dT.Use SuperScript TMPlasmid System (Invitrogen) makes up high molecular cDNA library from the PolyA+RNA of 20 micrograms.On 1% sepharose in TAE, cDNA is carried out size fractionation separate.Collect the cDNA in 1Kb to the 10Kb scope, connect between the Sal1 and Not1 restriction site of pSPORT1 carrier into, transform into intestinal bacteria DH10B electroreception attitude cell by electroporation.LIB5496 has produced about 3.5 * 10 6Individual colony-forming unit.LIB5498 has produced about 1.0 * 10 6Individual colony-forming unit.Single amplification is from the bacterium colony of corn rootworm high molecular cDNA library LIB5496 and LIB5498 in the high viscosity substratum.Under 37 ℃, (contain 0.3%SeaPrepagarose at the 500ml LB substratum that stirs flat board respectively
Figure A20068004288100523
With the 50mg/l Pyocianil) in, mix about 600,000 colony-forming units from LIB5496 and LIB5498, in water/ice bath, cooled off 1 hour rapidly then, make bacterial colony evenly suspend.At 30 ℃ grown 42 hours in the library of inoculation then.After the incubation, pair cell carries out 5 minutes mixing on the stirring flat board.Then in the centrifugal bottle with media transfer to two 250ml.10,000xg handled 10 minutes, the precipitum cell.From bottle, shift out substratum, cell is suspended in again in the LB substratum of 20ml altogether, wherein contain the Pyocianil of 50mg/l.Add methyl-sulphoxide to 10%, so that cell is remained freezing state.Increased in two kinds of libraries, to every milliliter 10 8The final titre of individual colony-forming unit.Obtain the cDNA sequence information of insertion from corn rootworm species specificity plasmid library.
People's such as Andersen corn rootworm library and produce about 18,415 independent est sequences from the additional sequences in LIB5444 and LIB5462 library is initial, it is by about 1.0 * 10 7Individual nucleotide residue constitutes.The mean length of est sequence is about 586 nucleotide residues.These est sequences are used to the information biology algorithm, obtained the assembling of contig (contig) sequence, this is called as the UNIGENE sequence in this article, can not be called as singlet (singleton) in this article by each est sequence of overlapping identity and the assembling of other est sequence.Then LIB5444 and LIB5462 library are carried out the more order-checking of the degree of depth, obtain extra individual est sequence.Will be from the library, be that the est sequence that LIB149, LIB150, LIB3027, LIB3373, LIB5444, LIB5462, LIB5496 and LIB5503 obtain is selected to the further research that consumer organism is hereinafter described measured, and corresponding sequence is shown in the sequence table.
If possible, will separate the est sequence that obtains from CRW cDNA library and be assembled into the UNIGENE group, the Unigene sequence of these equipments is included in the sequence table.UNIGENE be the gene orientation bunch, it forms from single est sequence overlapping in sequence identity zone, to form bigger sequence.People such as Pontius (2003).Every nucleotide sequence shown in the sequence table is analyzed, identified the existence of reading frame.The amino acid sequence information that to infer from reading frame and the known amino acid sequence information that can obtain from public database relatively, to infer the degree of aminoacid sequence and these known amino acid sequence identity or similarity.If exist, use the biological function relevant with known amino acid sequence in the public database, add following note for the aminoacid sequence of inferring from cDNA library nucleotide sequence information.Note provides protein (may express from the specific gene that the provides specific cDNA sequence) function information of hint property, but this and indecisive result.Annotation information based on hint property, some cDNA sequence is accredited as: coding may relate to the albumen of some biological functions in the corn rootworm cell, described function is very important to life, be necessary perhaps, may relate to perhaps that cell is complete, cell maintenance, fecundity etc. the health of guaranteeing cell and survival.
The sequence of selecting to be used for further research is used for the dsrna construct molecule, mixes CRW food.It is right to design hot amplimer based on cDNA and EST homing sequence, obtains to be used to the sequence of ingesting and measuring.Primer to or be built as a pair of nucleotide sequence, each right member of primer shows and the complete complementarity that justice or antisense sequences are arranged.Make up some primers to sequence, make each member of this centering show the sequence that contains T7 phage rna polymerase promotor at 5 ' end.Preferably, use crw genomic dna, increase for the first time to carrying out high-fidelity, produce first amplicon with first primer that lacks the T7 promotor as template.Preferably, cDNA or mRNA sequence are used as template, are used for the dsRNA molecule that synthetic the present invention uses, because eukaryotic gene group sequence is considered to contain non-existent sequence in the mature rna molecule in this area.To be used as template the hot amplified reaction for the second time from the first amplicon sample of high-fidelity amplified reaction generation for the first time then, with the second pair of primer that contains the T7 promoter sequence to producing second amplicon, wherein, contain in 5 ' end of every chain of second amplicon or wherein be embedded with the T7 promotor.Obtain the complete nucleotide sequence of second amplicon with both direction, itself and nucleotide sequence at the cDNA report are compared, and, if exist, point out the difference between the two sequences.Usually, use genomic dna as the sequence of template preparation be used to obtain that conspicuous level is prevented, as the further use of dsRNA molecule and inconsistent, because the variation of non-existent genome sequence in mRNA or cDNA sequence is arranged.
Typically, the in-vitro transcription reaction contains the about 1 linearizing dna profiling to about 2 micrograms, from the T7 polymeric enzyme reaction damping fluid of 10X concentrated solution, the T7 RNA polymerase of ribonucleotide ATP, CTP, GTP and UTP (wherein concentration is that each is 50 to 100mM) and 1 unit.According to manufacturers instruction, at about 37 ℃ RNA polymerase reacted incubation for some time (several minutes to a few hours), this depends on the optimum temps of used RNA polymerase.Usually, reaction carries out about 2 to about 6 hours, is used to transcribe the template sequence that reaches about 400 Nucleotide most, and reaches 20 hours most, is used to transcribe the template sequence of length greater than about 400 Nucleotide.Reaction is heated to 65 ℃, continues 15 minutes, to stop rna transcription.Precipitated rna transcription product in ethanol, the washing, at air drying, it is suspended in the water that does not contain the RNA enzyme again, to concentration be every milliliter of about 1 microgram.Utilize most of transcript of reverse T7 promotor strategy (being summarized as mentioned) to produce double-stranded RNA in the responsive transcription in vivo, but, by purified RNA is heated to 65 ℃, slowly cool to room temperature then to guarantee that justice and the segmental correct annealing of sense-rna are arranged, obtained the double-stranded RNA of high yield.At 37 ℃ the double-stranded RNA product is carried out one hour incubation with DNA enzyme I and RNA enzyme then, to remove any DNA or the single stranded RNA that exists in the mixture.According to manufacturers instruction (AMBION MEGAscript
Figure A20068004288100551
RNAi KIT), purifying double-stranded RNA product on pillar is suspended in 10mM Tris-HCl damping fluid (pH 7.5) again with it or does not contain in the water of RNA enzyme, to the concentration of every microlitre 0.1 to 1.0 microgram.
Following nucleotide sequence is initial as the obtained (people such as Andersen of the cDNA sequence that identifies in corn rootworm midgut cDNA library, the same), use it for the dsrna construct molecule, be used for upchecking in the pest food inhibition effect of double stranded rna molecule of ingesting to the insect biological function.
The A.Chd3 homologous sequence
Identified the CHD gene in multiple eukaryote, its corresponding albumen is considered to play a role as the chromatin reconstruct factor.Term CHD is believed for every kind and can be given different chromatin related activity from three kinds of sequence homology structural domain: chromo that find in the CHD albumen (chromatin group structure modifier) structural domain, SNF2-relational spiral enzyme/ATP enzymatic structure territory and DNA binding domains.Based on the whether existence of another kind of sequence homology structural domain (PHD Zinc finger domain, typically, relevant with the karyomit(e) related activity), CHD albumen is divided into two classes.The CHD3 associated protein has the PHD Zinc finger domain, but the CHD1 associated protein is then really not so.Experimental observation has hinted the effect of CHD3 albumen in inhibition is transcribed, and it has been shown as in some species and has contained the composition of histone deacetylase enzyme as the complex body of subunit.The deacetylation of histone is with to transcribe deactivation relevant, so CHD3 albumen is implied to be: utilize the character as the composition of Histidine deacetylase complex body, people such as (, 1999) Ogas can play a role as transcription inhibitor.Therefore, CHD3 albumen synthetic prevented can be used as useful target, be used for the inhibition to coleopteran pest of double chain RNA mediate.
B. 'beta '-tubulin homologous sequence
Tubulin is the important structure component of various kinds of cell structure in all eukaryotic cells, is mainly used in the formation microtubule.The inhibition that microtubule forms in the pair cell can cause serious consequence, comprises, to the interference that mitotic spindle forms, pair cell splitted blocking-up etc.Therefore, the inhibition that tubulin is formed can be the useful target of the inhibition of double chain RNA mediate.
C.40kDa V-AT enzyme homologous sequence
Energy metabolism in the eukaryote system in the subcellular organelle is unusual important function.The vacuole atp synthase participates in the ATP that keeps enough levels in the vacuole.Therefore, the vacuole atp synthase can be the useful target of the inhibition of double chain RNA mediate.
D.EF1 α homologous sequence
Transcription elongation and transcription termination factor are very important for metabolism, and they can be the favourable targets that is used for the inhibition of double chain RNA mediate.
E.26S proteoplast subunit p28 homologous sequence
The 26S proteoplast is big, dependency ATP, multimeric protein enzyme, and it is conservative at all eukaryote camber.It is removed in the proteic process of multiple short life in selectivity has general function, and described albumen was covalently bound with ubiquitin before this, was degraded by 26S proteolytic enzyme complex body then.The ubiquitin approach has important effect in the control of cell cycle, described control realizes by the proteic specificity of multiple adjusting is degraded, described albumen comprises the mitotic cell cyclin and to the kinase whose inhibitor of cyclin dependent, for example, the p27 of mammalian cell.Therefore, 26S proteoplast synthetic being prevented and it is formed that subunit synthetic suppresses can be preferred target people such as (, 1997) Smith of inhibition of double chain RNA mediate.
F. neotonin epoxide hydrolase homologous sequence
Corpus allatum hormone is controlled and is regulated the biological procedures of multiple necessity in the insect life cycle, and described process is including but not limited to metamorphosis, breeding and diapause.In suitable, neotonin (JH) concentration need reach peak value in the hemolymph of insect pest larva (particularly lepidopteran and coleoptera larvae) form, and it must be degraded then, to stop the hormone response effect.The enzyme that relates in the process of reduction neotonin concentration plays a role by two main paties of metabolic degradation.Article one, approach relates to juvenile hormone esterase (JHE), and its energy hydrolysis methyl esters provides corresponding acid.Second kind of approach utilizes neotonin epoxide hydrolase (JHEH), to obtain the hydrolysis to epoxide, causes glycol to form.The contribution of JHE in the JH degraded understood well, finds that it is constant between lepidopteran and Coleoptera species.Inhibition to the JH esterase is relevant with serious profile variation, includes but not limited to, larva migration (larvalwandering), pupates to postpone and the growth of lopsided intermediate state.On the contrary, people are not enough to the effect understanding of JHEH in the JH metabolism, and, it has demonstrated between species and can change, JHEH may be evidence (the Brandon J.Fetterolf of the metabolic main path of JH but hint has been pointed out in recent research, Doctoral Dissertation, North Carolina StateUniversity (Feb.10,2002) Synthesis and Analysis of Mechanism BasedInhibitors of Juvenile Hormone Epoxide Hydrolase from InsectTrichoplusia ni).At any time, can be to be used for effective target that the insect of double chain RNA mediate suppresses to the interference of any JH degradation pathway with the gene technology of preventing.
G. rely on the chloride channel albumen homology sequence of swelling (swelling dependent)
Relying on swollen chloride channel albumen is assumed to be: play the part of pivotal player in the osmoregulation of eucaryon zooblast system.Therefore, the nucleotide sequence that shows the ability that can express following aminoacid sequence can be to be used for carrying out the useful target that RNA suppresses insect, and described aminoacid sequence shows and the proteic homology of dependence swollen chloride channel that identified in the past.
H. G-6-P 1-apodehydrogenase homologous sequence
G-6-P 1-apodehydrogenase (G6PD) catalysis G-6-P is oxidized to 6-phosphogluconate, follows the oxidised form with Triphosphopyridine nucleotide, reduced (NADP+) to be reduced to NADPH simultaneously.Known to the essential cofactor in a variety of eukaryote building-up reactionss in NADPH this area, it is its reduction form that known its can keep gsh.The gsh that is reduced plays a role as the scavenging agent of dangerous oxidative metabolism product in eukaryote, and, under the assistance of Selenoperoxidase, deleterious hydrogen peroxide is converted into water (people such as Beutler, 1991).Therefore, G6PD can be the preferred target of the inhibition in coleopteran pest of double chain RNA mediate.
I.Act42A albumen homology sequence
Actin muscle is an eukaryotic protein ubiquitous, high conservative, and it is cell movement and location needed people such as (, 2001) Lovato.Identified a large amount of CRW cDNA sequences, they are predicted to be may encode Actin muscle or show the albumen of the aminoacid sequence structure relevant with Actin muscle.Therefore, the gene of coding Actin muscle homologue can be the useful target of the inhibition of double chain RNA mediate in the insect cell.
J.ADP-ribosylation factor 1 homologous sequence
ADP ribosylation factor 1 has been shown as in cell function very important, because they embody complete effect in the process of dna damage reparation, carcinogenic, necrocytosis and genome stability.Therefore, the inhibition with double chain RNA mediate optionally destroys transcribing of ADP-ribosylation factor in the coleopteran pest species, will be useful.
K. transcription factor IIB albumen homology sequence
As mentioned before, the transcription elongation and the translation termination factor are extremely important for metabolism, can be the favourable targets of the inhibition of double chain RNA mediate, are used to control or eliminate the invasion and attack of coleopteran pest.
L. chitinase protein
Chitin is β (1 → 4) homopolymer of N-acetylglucosamine, and it is found in the insect exoskeleton.Chitin forms from the UDP-N-acetylglucosamine in the catalytic reaction of chitin synthase.Chitin is structural homopolysaccharide, in the structure to this hyperbranched and crosslinked structure, relates to a lot of enzymatic steps.Chitin gives insect shape, hardness and support, and the internal is provided, for example the support that adhered to of muscle.Chitin also is degraded to a certain degree, with the step that relates in the mediation insect molting process.Therefore, it is believed that, double chain RNA mediate, to proteic inhibition in these approach, will can be used as the means of control coleopteran pest invasion and attack.
M. ubiquitin conjugated enzyme homologous sequence
The ubiquitin approach has important effect in the control of cell cycle, this realizes that by the proteic specificity of a large amount of adjustings is degraded described albumen comprises the kinase whose inhibitor of mitotic cell cyclin and cyclin dependent, for example, the p27 of mammalian cell.Therefore, the gene of coding ubiquitin and related component can be the preferred target of the inhibition of double chain RNA mediate people such as (, 1997) Smith.The proteolysis approach that relies on ubiquitin is one of main path of the interior albumen selective destruction of pair cell in the eukaryote.The puting together of ubiquitin and substrate protein being subjected to obviously to be multifarious enzyme array regulates.The proteolysis target can be that step between the peptide is regulated by many subunits 26S proteasome degradation at the ubiquitinization of substrate and its also surely.The complicacy of ubiquitin system has hinted its central role that upgrades for albumen in the eukaryotic cell adjusting, and involves other albumen in the approach, comprises ubiquitin activating enzyme, ubiquitin binding enzyme, ubiquitin conjugated enzyme and 26S proteoplast subunit component.Therefore, it is believed that the inhibition to this pathway protein of double chain RNA mediate will can be used as the means of control coleopteran pest invasion and attack and use.
N. glyceraldehyde-3-phosphate dehydrogenase homologous sequence
Glycolytic pathway is important approach very in most of biologies, and it relates to from degradation of glucose and produces metabolisable energy.In the subordinate phase of glycolytic pathway, an important enzyme is glyceraldehyde-3-phosphate dehydrogenase (G3PDH), and under the situation that has NAD+ and inorganic phosphate, it can be oxidized to glycerol 3-phosphate-phosphoric acid by the catalysis glyceraldehyde 3-phosphate, forms NADH thereupon.The important component of this reaction is that energy stores by the formation of NADH.The coding and the gene of glycolytic pathway involved enzyme, and especially, coding participate in being used to form the gene of the enzyme in the step of energy storage, can become the useful especially target of the inhibition of carrying out double chain RNA mediate in the coleopteran pest thing.
O. ubiquitin B homologous sequence
As mentioned above, the ubiquitin protein degradation pathway has important effect in the control of cell cycle, this realizes by the proteic specificity of a large amount of adjustings is degraded, described albumen comprises the mitotic cell cyclin, or the kinase whose inhibitor of cyclin dependent, for example, the p27 of mammalian cell.Therefore, the gene of coding ubiquitin and related component can be the preferred target that is used for the inhibition of double chain RNA mediate people such as (, 1997) Smith.
P. juvenile hormone esterase homologue
As indicated above, corpus allatum hormone is controlled and is regulated the biological procedures of multiple necessity in the insect life cycle, and it includes but not limited to, metamorphosis, breeding and diapause.Effective target of the insect control that the interference synthetic to JH or degradation pathway of use gene inhibition technology may be a double chain RNA mediate.
Q. α tubulin homologous sequence
Eukaryotic cells utilizes the cytoskeletal structure element usually, and they are important, not only as machinery mount, also keeps cell shape.Semiflexible microfilament makes cell to move, and helps them to divide in mitotic division (division of cytoplasm), and, in vertebrates and invertebrates, be used for Muscle contraction.Relatively harder microtubule is made of α and beta tubulin, and they have important effect in following process: as sending a cover motorway of passing vacuole and organoid to play a role, and be used for making during mitotic division (nuclear fission) karyomit(e) separately.Flexible intermediate filament provides for whole cyto-architectural extra at least intensity.Also known, cytoskeleton participates in striding cytoplasmic signal transduction process.Consider these functions, we believe, any destruction of pair cell skeleton or even all may cause the pathological examination of pair cell to the minor alteration of its integrity.
R. transport correlated series
As indicated above, sorting and the multiple molecule of transhipment comprise sorting and are transported to suitable organoid in cell, and their secretion, are a kind of important physical functions.Described sorting approach can comprise depending on transports required interior body sorting mixture (ESCRT), i.e. those of composite I-III.Therefore, relevant with the transhipment of polypeptide and other molecule function also can be the preferred target of the inhibition of dsRNA mediation.
Embodiment 2
Insect feeds raises biological assay
Double-stranded RNA (dsRNA) sample is measured, and this measures the target insect of adopting selected number.Prepare dsRNA from the sequence of identifying according to embodiment 1, wherein use whole contig sequence (under the situation of SEQ ID Nos:1-6), or the sequence that the contig from assembling is increased with primer shown in the sequence table.According to following program, the dsRNA of various dose is administered on the corn rootworm artificial food as tectum.From Crop Characteristics, Inc., Farmington, Minnesota obtains the ovum of Diabrotica virgifera virgifera (WCR).In soil, in 24 ℃, 60% relative humidity, fully down dark, the WCR ovum of non-duration of diapause is carried out about 13 days cultivation.At the 13rd day, the soil that will contain the WCR ovum was placed in the #30-#60 purpose sieve, uses high pressure garden water pipe flush away soil.Carry out disinfection by three minutes surfaces to ovum of bubble in LYSOL, it is inferior to give a baby a bath on the third day after its birth with aqua sterilisa, washes once with 10% formalin solution, washes extra three times with sterilization again.The ovum of handling in this way is distributed in the sterilization coffee strainer, at 27 ℃, 60% relative humidity, down dark fully, hatching is spent the night.
In order to prepare dsRNA, with the amplicons cloned of the sequence selected in the plasmid vector that can in intestinal bacteria, duplicate, reclaim the plasmid DNA of q.s, carry out external T7 rna polymerase transcribe from the convergent T7 promotor of the embedding of any end of cloned sequence with permission.Produce double-stranded RNA, carry out biological assay; Article one, the RNA fragment comprises the sequence shown in the sequence table, and another RNA fragment is the reverse complementary sequence of this nucleotide sequence substantially, and wherein, guanosine suitably replaces thymidine.With the sample of DICER or RNA enzyme III processing double-stranded RNA (dsRNA), to produce the siRNA (siRNA) of q.s.The sample that will contain siRNA or dsRNA covers the CRW food of above describing and measures, according to larva is ingested.
The double-stranded RNA sample is directly joined in each hole of containing the insect food of above pointing out, perhaps before joining insect food, it is modified.To the modification of double-stranded RNA according to manufacturer provide at RNA enzyme III (AMBION CORPORATION, Austin, Texas) or DICER (specification sheets California) carries out for STRATAGENE, La Jolla.RNA enzyme III has produced the duplex of 21 and 22 Nucleotide to the digestion of double-stranded RNA, 3 ' the C-terminal that it contains the end of 5 ' phosphorylation and has 2-3 base overhang, be similar to double-stranded short interfering rna (siRNA) fragment of about 21-26 base pair, this is the dicer enzyme generation in people (2001a) evaluation, the eucaryon approach such as people such as Hamilton (1999) and Elbashir.This short interfering rna duplex of collecting is further purified, sample is analyzed, to measure integrity and the efficient that duplex forms with polyacrylamide gel electrophoresis.Come the purity and the quantity of working sample then under the wavelength of 250 nanometers by spectrophotometry, untapped sample is stored in-20 ℃, is used for further use.
Substantially according to the described insect food of making of people such as Pleau (2002), wherein made following change.The SERVA agar of 9.4 grams is distributed to 540 milliliters of pure water, stirs and disperse fully until agar.Water/agar is mixed and heated to boiling,, topples over into WARING stirrer then to dissolve agar fully.Stirrer is remained low speed, and join 62.7 gram BIO-SERV DIET mixtures (F9757), the freeze dried corn root of 3.75 grams, 1.25 milliliters of non-polluted edible pigment and 0.6 milliliter of formalin in the agar mixture of heat this moment.Be 9.0 by adding 10% potassium hydroxide storage liquid with the mixture pH regulator then.On the magnetic agitation hot plate, use the magnetic force splash bar of sterilization NALGENE coating, mix continuously with liquid food at a high speed, and it is remained about 48 ℃ to about 60 ℃, and it is separated into 200 microlitre equal portions in each hole of titer plate at the bottom of the FALCOM96 hole circle about 600 ml volumes.In the biological exhausting cupboard (biohood) of sterilization, make about 10 minutes of foodstuff solidification in the flat board and dry air.
Use running fire type micropipet, get the test sample of 30 (30) microlitre volumes, wherein contain the contrast agents or the double-stranded RNA of different quantities, it is covered insect foodstuff surface in each hole.After the application test sample, insect food is allowed to keep reaching one and a half hours in the biological exhausting cupboard of sterilization, so that diffusion of reagents feed thing, and allow the foodstuff surface drying.In each hole, put into a WCR newborn larvae with paintbrush.Use the MYLAR seal plate then, ventilate with insect needle.At every kind of dosage, 12-72 insect larvae to be tested, quantity depends on test design.At 27 ℃, 60% relative humidity and the dark fully incubation that down the biological assay flat board is carried out 12-14 days.Time point at 12-14 days is to the following quantity record in addition of survival larva of every kind of dosage.Use suitable microbalance,, measure the larva quality at the larva of every survival.Use JMP
Figure A20068004288100611
4 statistical softwares (SAS Institue, 1995) come analytical data, check with Dunnet and carry out complete factorial ANOVA, with the effect (P<0.05) of seeking processing than untreated control.Carry out Tukey-Kramer (post hoc) check afterwards, come relatively more all processing (P<0.05).The CRW larva feeds the result who raises mensuration and has shown with respect to the significant growth-inhibiting and the death that contrast, as explanation hereinafter.
Embodiment 3
Insect feeds the result who raises biological assay
By using the biological assay of adopting embodiment 2 to describe, the sample of the double-stranded RNA sequence of identifying according to the description of embodiment 1, the artificial food that preparation is enough to raise the corn rootworm larva.Typically, make ingest above-mentioned food 12 days of corn rootworm larva, monitoring is with respect to the death and the hypoevolutism of only feeding the rootworm of raising negative and positive control food.The result of study proof is with containing and multiple different genes type homologous sequence dsRNA partly, and the larvae development that produces conspicuous level (p<0.05) is slow and/or dead.Following table 1-5 has shown sequence and the carrier that produces remarkable hypoevolutism and/or death, and the corresponding sequence numbering that is expressed as the sequence of dsRNA.
Table 1: the insect that carries out with southern corn rootworm or western corn rootworm feeds to raise and has confirmed remarkable hypoevolutism and/or dead dsRNA construct in the biological assay
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
RNAi-pIC17553:001 Apple 697
RNAi-pIC17504:049 EST total length V-ATP enzyme 695
RNAi-pIC17554:001 Rpl 9 698
RNAi-pIC17555:001 Rpl 19 699
RNAi-pIC17504:050 6.0 part of V-ATP enzyme 711
RNAi-pIC19514:001 WCR mRNA capping enzyme LIB5496-028-A1-M1-A7 696
RNAi-pIC17552:003 The black dull structural constituent of LIB5462-042-A1-M1-H10 Dv.6_CG9355 epidermis 700
RNAi-pIC17546:003 LIB5462-091-A1-M1-G3 Dv.1_CG6217KNICKKOPF UNK 701
RNAi-pIC17546:001 Dv.1_CG6217 1
RNAi-pIC17549:001 Dv.4_CG1435 4
RNAi-pIC17550:001 LIB5444-065-A1-M1-D5 Dv.5_cg1915_1 5
RNAi-pIC17551:001 LIB5462-012-A1-M2-B2 Dv.5_cg1915_2 703
RNAi-pIC17552:001 Dv.6_CG9355 6
RNAi-pMON78412:002 Dv.7_CG3416; The Mov34:CG3416 that infers is directly to homologue 10
RNAi-pMON96172:002 Dv.8_CG1088; The vacuole H+ATP enzyme E subunit of inferring: CG1088 is directly to homologue 14
RNAi-pMON96168:002 Dv.9_CG2331; The atpase activity of inferring: CG2331 is directly to homologue 18
RNAi-pMON78424:002 Dv.10_CG6141; The ribosomal protein L 9:CG6141 that infers is directly to homologue 22
RNAi-pMON78425:001 Dv.11_CG2746 26
RNAi-pMON78444:002 Dv.12_CG1341; The proteasome of inferring is regulated particle, and rpt1:CG1341 is directly to homologue 30
RNAi-pMON78416:002 Dv.13_CG11276; The ribosome protein S 4-9 of inferring: CG11276 is directly to homologue 34
RNAi-pMON78434:001 Dv.14_CG179272; The myoglobulin heavy chain of inferring: CG17927 is directly to homologue 38
RNAi-pMON78439:001 Dv.16_CG5394; Glutamy-the Alanyl-tRNA synthetase of inferring: CG5394 is directly to homologue 46
RNAi-pMON78438:001 Dv.17_CG10149; The proteasome p44.5 subunit of inferring, rpn6:CG10149 is directly to homologue 50
RNAi-pMON78435:002 Dv.18_CG1404; The RAN minor comonomer GTP enzyme of inferring: CG1404 is directly to homologue 54
RNAi-pMON78449:002 Dv.19_CG18174; The proteasome of inferring is regulated particle, covers inferior mixture, and rpn11:CG18174 is directly to homologue 58
RNAi-pMON78419:001 Dv.20_CG3180_1; The rna plymerase ii that is oriented to DNA of inferring: CG3180 is directly to homologue 62
RNAi-pMON78440:002 Dv20_CG3180_2; The rna plymerase ii that is oriented to DNA of inferring: CG3180 is directly to homologue 706
RNAi-pMON78420:001 Dv.21_CG3320; The Rab1:CG3320 that infers is directly to homologue 70
RNAi-pMON78410:002 Dv.22_CG3395; The ribosomal protein S9:CG3395 that infers is directly to homologue 74
RNAi-pMON78422:001 Dv.23_CG7269; The helicase of inferring: CG7269 is directly to homologue 78
RNAi-pMON78423:001 Dv.25_CG9012; The clathrin heavy chain of inferring: CG9012 is directly to homologue 86
RNAi-pMON78414:006 5 ' part of the about EST of DV.26sec1 710
RNAi-pMON78414:001 Dv.26_CG9261; The sodium of inferring/potassium exchange ATP enzyme: CG9261 is directly to homologue 90
RNAi-pMON78413:001 Dv.27_CG12052; The rna plymerase ii transcription factor of inferring: CG12052 is directly to homologue. 94
RNAi-pMON78427:001 Dv.35_CG3762; The Vha68-2:CG3762 that infers is directly to homologue. 126
RNAi-pMON97122:001 C1_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer 713
RNAi-pMON97127:001 C2_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer 714
RNAi-pMON97125:001 C3_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer 715
RNAi-pMON78441:001 Dv.39_CG9078; Sphingolipid δ-4 desaturase of inferring; Stearyl-CoA 9-desaturase: CG9078 is directly to homologue 142
RNAi-pMON97114:001 Dv.41_CG2637; Female sterile Ketel; Participating in albumen-nucleus enters: CG2637 is directly to homologue 150
RNAi-pMON97140:001 Dv.44_CG1244; The nucleic acid of inferring in conjunction with activity: CG1244 directly to homologue 162
RNAi-pMON78429:001 Dv.46_CG10689; The rna helicase enzyme of inferring: CG10689 is directly to homologue 170
RNAi-pMON78432:001 Dv.48_CG33196; The transmembrane receptor protein Tyrosylprotein kinase of inferring: CG33196 is directly to homologue 178
RNAi-pMON78428:001 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 is directly to homologue 182
RNAi-pMON78428:003 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 directly is selected from the free district of DV.49 to homologue 704
RNAi-pMON78426:001 Dv.50_CG10110_1; Cutting of inferring and polyadenylation atopen: CG10110_1 are directly to homologue 186
RNAi-pMON96185:001 Dv.55_CG5931; The splicing factor activity of inferring, RNA helicase activity: CG5931 is directly to homologue 202
RNAi-pMON78442:001 Dv.57_CG2968; The hydrogen output ATP enzyme of inferring: CG2968 is directly to homologue 206
RNAi-pMON78431:001 Dv.58_CG1751; The signal peptidase of inferring: CG1751 is directly to homologue 210
RNAi-pMON96177:001 Dv.61_CG3725_1; The calcium atpase of inferring: CG3725 is directly to homologue 222
RNAi-pMON96183:001 Dv.62_CG3612; The lead of inferring: CG3612 is directly to homologue 230
RNAi-pMON96180:002 Dv.65_CG7033; The chaperone activity of inferring: CG7033 is directly to homologue 242
RNAi-pMON96176:001 Dv.66_CG32019; The bent:CG32019 that infers is directly to homologue 246
RNAi-pMON96170:002 Dv.67_CG16916; The endopeptidase activity of inferring: CG16916 is directly to homologue 250
RNAi-pMON96166:001 Dv.70_CG5771; The Rab-protein 11 of inferring: CG5771 is directly to homologue 258
RNAi-pMON96179:001 Dv.72_CG6831; The rhea:CG6831 that infers is directly to homologue 266
RNAi-pMON96186:001 Dv.73_CG10119; The lamin C:CG10119 that infers is directly to homologue 270
RNAi-pMON96160:002 Dv.74_CG6375; The pitchoune:CG6375 that infers is directly to homologue 274
RNAi-pMON97137:001 Dv.77_CG4214; The syntaxin 5 of inferring; The transhipment of participation intracellular protein: CG4214 is directly to homologue 286
RNAi-pMON96167:001 Dv.82_CG8264; The Bx42:CG8264 that infers is directly to homologue 302
RNAi-pMON96171:001 Dv.83_CG11397; The gluon:CG11397 that infers is directly to homologue 306
RNAi-pMON96187:003 Dv.85_CG4494; The protein binding activity of inferring: CG4494 is directly to homologue 314
RNAi-pMON96174:001 Dv.86_CG5055; The bazooka:CG5055 that infers is directly to homologue 318
RNAi-pMON97126:001 Dv.88_CG8756; Unknown Function; Contain chitin binding domains: CG8756 directly to homologue 326
RNAi-pMON97130:001 Dv.93_CG8515; The epidermal structure component of inferring; Contain chitin binding domains: CG8515 directly to homologue 342
RNAi-pMON97109:001 Dv.99_CG2446; Unknown; Cause death in fruit bat and have low homology with the people: CG2446 is directly to homologue 366
RNAi-pMON97111:001 Dv.105_CG1250_1; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue 390
RNAi-pMON97112:001 Dv.105_CG1250_2; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue 394
RNAi-pMON97107:001 Dv.107_CG14813; COPI vacuole tunicle; Participate in the intracellular protein transhipment of golgi body to endoplasmic reticulum: CG14813 is directly to homologue 398
RNAi-pMON97115:001 Dv.108_CG17248; N-synaptobrevin; The transhipment of participation intracellular protein: CG17248 is directly to homologue 402
RNAi-pMON97133:001 Dv.113; Unknown Function; The WCR unique sequences 422
RNAi-pMON97121:001 Dv.122_CG3164; The ATP-binding cassette translocator activity of inferring: CG3164 is directly to homologue 454
RNAi-pMON97134:001 Dv.127; Unknown Function; Do not have homology with the people 470
RNAi-pMON97171:001 Dv.146; Unknown Function, the WCR unique sequences 514
RNAi-pMON97166:001 Dv.147; Unknown Function, the WCR unique sequences 518
RNAi-pMON97167:001 Dv.149; Unknown Function, the WCR unique sequences 526
RNAi-pMON97169:001 Dv.155; Unknown Function, the WCR unique sequences 550
RNAi-pMON97173:001 Dv.162; Unknown Function, the WCR unique sequences 578
RNAi-pMON97170:001 Dv.170; Unknown Function, the WCR unique sequences 610
Table 2: adopting feeding of western corn rootworm (WCR) larva to raise the dsRNA construct that causes remarkable hypoevolutism level in the biological assay
Carrier Be expressed as the sequence of dsRNA
RNAi-pIC17553:001 Apple
RNAi-pIC17504:049 EST total length V-ATP enzyme
RNAi-pIC17554:001 Rpl 9
RNAi-pIC17555:001 Rpl 19
RNAi-pIC17504:050 6.0 part of V-ATP enzyme
RNAi-pIC16005:001 V-ATP enzyme D subunit 1
RNAi-pIC19514:001 WCR mRNA capping enzyme LIB5496-028-A1-M1-A7
RNAi-pIC17546:001 Dv.1_CG6217
RNAi-pIC17549:001 Dv.4_CG1435
RNAi-pIC17551:001 LIB5462-012-A1-M2-B2 Dv.5_cg1915_2
RNAi-pIC17552:001 Dv.6_CG9355
RNAi-pMON78412:001 Dv.7_CG3416
RNAi-pMON78412:002 Dv.7_CG3416; The Mov34:CG3416 that infers is directly to homologue
RNAi-pMON96172:002 Dv.8_CG1088; The vacuole H+ATP enzyme E subunit of inferring: CG1088 is directly to homologue
RNAi-pMON96168:002 Dv.9_CG2331; The atpase activity of inferring: CG2331 is directly to homologue
RNAi-pMON78424:002 Dv.10_CG6141; The ribosomal protein L 9:CG6141 that infers is directly to homologue
RNAi-pMON78425:001 Dv.11_CG2746
RNAi-pMON78444:002 Dv.12_CG1341; The proteasome of inferring is regulated particle, and rpt1:CG1341 is directly to homologue
RNAi-pMON78416:002 Dv.13_CG11276; The ribosome protein S 4-9 of inferring: CG11276 is directly to homologue
RNAi-pMON78434:001 Dv.14_CG179272; The myoglobulin heavy chain of inferring: CG17927 is directly to homologue
RNAi-pMON78439:001 Dv.16_CG5394; Glutamy-the Alanyl-tRNA synthetase of inferring: CG5394 is directly to homologue
RNAi-pMON78435:002 Dv.18_CG1404; The RAN minor comonomer GTP enzyme of inferring: CG1404 is directly to homologue
RNAi-pMON78449:002 Dv.19_CG18174; The proteasome of inferring is regulated particle, covers inferior mixture, and rpn11:CG18174 is directly to homologue
RNAi-pMON78440:002 Dv.20_CG3180_2; The rna plymerase ii that is oriented to DNA of inferring: CG3180 is directly to homologue
RNAi-pMON78420:002 Dv.21_CG3320; The Rab1:CG3320 that infers is directly to homologue
RNAi-pMON78410:001 Dv.22_CG3395; The ribosomal protein S9:CG3395 that infers is directly to homologue
RNAi-pMON78422:001 Dv.23_CG7269; The helicase of inferring: CG7269 is directly to homologue
RNAi-pMON78423:001 Dv.25_CG9012; The clathrin heavy chain of inferring: CG9012 is directly to homologue
RNAi-pMON78414:001 Dv.26_CG9261; The sodium of inferring/potassium exchange ATP enzyme: CG9261 is directly to homologue
RNAi-pMON78413:001 Dv.27_CG12052; The rna plymerase ii transcription factor of inferring: CG12052 is directly to homologue.
RNAi-pMON97122:001 C1_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON97127:001 C2_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON97125:001 C3_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON78427:007 Dv.35_CG3762; The Vha68-2:CG3762 that infers is directly to homologue.
RNAi-pMON78441:001 Dv.39_CG9078; Sphingolipid δ-4 desaturase of inferring; Stearyl-CoA 9-desaturase: CG9078 is directly to homologue
RNAi-pMON97114:001 Dv.41_CG2637; Female sterile Ketel; Participating in albumen-nucleus enters: CG2637 is directly to homologue
RNAi-pMON78429:001 Dv.46_CG10689; The rna helicase enzyme of inferring: CG10689 is directly to homologue.
RNAi-pMON78432:001 Dv.48_CG33196; The transmembrane receptor protein Tyrosylprotein kinase of inferring: CG33196 is directly to homologue
RNAi-pMON78428:001 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 is directly to homologue
RNAi-pMON78428:003 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 directly is selected from the free district of DV.49 to homologue
RNAi-pMON78426:001 Dv.50_CG10110_1; Cutting of inferring and polyadenylation atopen: CG10110_1 are directly to homologue
RNAi-pMON96185:001 Dv.55_CG5931; The splicing factor activity of inferring, rna helicase enzymic activity: CG5931 is directly to homologue
RNAi-pMON78442:001 Dv.57_CG2968; The hydrogen output ATP enzyme of inferring: CG2968 is directly to homologue
RNAi-pMON78431:001 Dv.58_CG1751; The signal peptidase of inferring: CG1751 is directly to homologue
RNAi-pMON96177:001 Dv.61_CG3725_1; The calcium atpase of inferring: CG3725 is directly to homologue
RNAi-pMON96182:001 Dv.61_CG3725_2; The calcium atpase of inferring: CG3725 is directly to homologue
RNAi-pMON96183:001 Dv.62_CG3612; The lead of inferring: CG3612 is directly to homologue
RNAi-pMON96180:002 Dv.65_CG7033; The chaperone activity of inferring: CG7033 is directly to homologue
RNAi-pMON96180:001 Dv.65_CG7033; The chaperone activity of inferring: CG7033 is directly to homologue
RNAi-pMON96176:001 Dv.66_CG32019; The tendency of inferring: CG32019 is directly to homologue
RNAi-pMON96170:002 Dv.67_CG16916; The endopeptidase activity of inferring: CG16916 is directly to homologue
RNAi-pMON96166:001 Dv.70_CG5771; The Rab-protein 11 of inferring: CG5771 is directly to homologue
RNAi-pMON96179:001 Dv.72_CG6831; The rhea:CG6831 that infers is directly to homologue
RNAi-pMON96186:001 Dv.73_CG10119; The lamin C:CG10119 that infers is directly to homologue
RNAi-pMON96160:002 Dv.74_CG6375; The pitchoune:CG6375 that infers is directly to homologue
RNAi-pMON96160:001 Dv.74_CG6375; The pitchoune:CG6375 that infers is directly to homologue
RNAi-pMON97137:002 Dv.77_CG4214; The syntaxin 5 of inferring; The transhipment of participation intracellular protein: CG4214 is directly to homologue
RNAi-pMON96167:001 Dv.82_CG8264; The Bx42:CG8264 that infers is directly to homologue
RNAi-pMON96171:001 Dv.83_CG11397; The gluon:CG11397 that infers is directly to homologue
RNAi-pMON96187:003 Dv.85_CG4494; The protein binding activity of inferring: CG4494 is directly to homologue
RNAi-pMON97126:001 Dv.88_CG8756; Unknown Function; Contain chitin binding domains: CG8756 directly to homologue
RNAi-pMON97109:001 Dv.99_CG2446; Unknown; Cause death in fruit bat and have low homology with the people: CG2446 is directly to homologue
RNAi-pMON97111:001 Dv.105_CG1250_1; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue
RNAi-pMON97107:001 Dv.107_CG14813; COPI vacuole tunicle; Participate in the intracellular protein transhipment of golgi body to endoplasmic reticulum: CG14813 is directly to homologue
RNAi-pMON97115:001 Dv.108_CG17248; N-synaptobrevin; The transhipment of participation intracellular protein: CG17248 is directly to homologue
RNAi-pMON97121:001 Dv.122_CG3164; The ATP-binding cassette translocator activity of inferring: CG3164 is directly to homologue
RNAi-pMON97171:001 Dv.146; Unknown Function, the WCR unique sequences
RNAi-pMON97166:001 Dv.147; Unknown Function, the WCR unique sequences
RNAi-pMON97167:001 Dv.149; Unknown Function, the WCR unique sequences
RNAi-pMON97169:001 Dv.155; Unknown Function, the WCR unique sequences
RNAi-pMON97173:001 Dv.162; Unknown Function, the WCR unique sequences
RNAi-pMON97170:001 Dv.170; Unknown Function, the WCR unique sequences
Table 3: adopting feeding of western corn rootworm (WCR) larva to raise the dsRNA construct that causes remarkable dead level in the biological assay
Carrier Be expressed as the sequence of dsRNA
RNAi-pIC17553:001 Apple
RNAi-pIC17504:049 EST total length V-ATP enzyme
RNAi-pIC17555:001 Rpl 19
RNAi-pIC17554:001 Rpl 9
RNAi-pIC17504:050 6.0 part of V-ATP enzyme
RNAi-pIC17504:054 From V-ATP enzyme subunit 2 sequences of Diabrotica virgifera virgifera total length est sequence as positive control
RNAi-pIC19514:001 WCR mRNA capping enzyme LIB5496-028-A1-M1-A7
RNAi-pIC17546:001 Dv.1_CG6217
RNAi-pIC17549:001 Dv.4_CG1435
RNAi-pIC17550:001 LIB5444-065-A1-M1-D5 Dv.5_cg1915_1
RNAi-pMON78412:002 Dv.7_CG3416; The Mov34:CG3416 that infers is directly to homologue
RNAi-pMON96172:001 Dv.8_CG1088; The vacuole H+ATP enzyme E subunit of inferring: CG1088 is directly to homologue
RNAi-pMON96168:001 Dv.9_CG2331; The atpase activity of inferring: CG2331 is directly to homologue
RNAi-pMON78424:002 Dv.10_CG6141; The ribosomal protein L 9:CG6141 that infers is directly to homologue
RNAi-pMON78425:001 Dv.11_CG2746
RNAi-pMON78444:001 Dv.12_CG1341; The proteasome of inferring is regulated particle, and rpt1:CG1341 is directly to homologue
RNAi-pMON78416:002 Dv.13_CG11276; The ribosome protein S 4-9 of inferring: CG11276 is directly to homologue
RNAi-pMON78434:001 Dv.14_CG17927_2; The myoglobulin heavy chain of inferring: CG17927 is directly to homologue
RNAi-pMON78435:001 Dv.18_CG1404; The RAN minor comonomer GTP enzyme of inferring: CG1404 is directly to homologue
RNAi-pMON78449:001 Dv.19_CG18174; The proteasome of inferring is regulated particle, covers inferior mixture, and rpn11:CG18174 is directly to homologue
RNAi-pMON78440:001 Dv.20_CG3180; The rna plymerase ii that is oriented to DNA of inferring: CG3180 is directly to homologue
RNAi-pMON78420:001 Dv.21_CG3320; The Rab1:CG3320 that infers is directly to homologue
RNAi-pMON78410:001 Dv.22_CG3395; The ribosomal protein S9:CG3395 that infers is directly to homologue
RNAi-pMON78422:001 Dv.23_CG7269; The helicase of inferring: CG7269 is directly to homologue
RNAi-pMON78414:006 5 ' part of the about EST of DV.26sec1
RNAi-pMON78414:001 Dv.26_CG9261; The sodium of inferring/potassium exchange ATP enzyme: CG9261 is directly to homologue
RNAi-pMON97122:001 C1_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON97127:001 C2_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON97125:001 C3_Dv.35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON78427:001 Dv.35_CG3762; The Vha68-2:CG3762 that infers is directly to homologue.
RNAi-pMON97114:001 Dv.41_CG2637; Female sterile Ketel; Participating in albumen-nucleus enters: CG2637 is directly to homologue
RNAi-pMON97140:001 Dv.44_CG1244; The nucleic acid of inferring in conjunction with activity: CG1244 directly to homologue
RNAi-pMON78429:001 Dv.46_CG10689; The rna helicase enzyme of inferring: CG10689 is directly to homologue.
RNAi-pMON78428:001 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 is directly to homologue
RNAi-pMON78428:003 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 directly is selected from the free district of DV.49 to homologue
RNAi-pMON78426:001 Dv.50_CG10110_1; Cutting of inferring and polyadenylation atopen: CG10110_1 are directly to homologue
RNAi-pMON96185:001 Dv.55_CG5931; The splicing factor activity of inferring, rna helicase enzymic activity: CG5931 is directly to homologue
RNAi-pMON78431:001 Dv.58_CG1751; The signal peptidase of inferring: CG1751 is directly to homologue
RNAi-pMON96177:001 Dv.61_CG3725_1; The calcium atpase of inferring: CG3725 is directly to homologue
RNAi-pMON96182:001 Dv.61_CG3725_2; The calcium atpase of inferring: CG3725 is directly to homologue
RNAi-pMON96180:001 Dv.65_CG7033; The chaperone activity of inferring: CG7033 is directly to homologue
RNAi-pMON96176:001 Dv.66_CG32019; The tendency of inferring: CG32019 is directly to homologue
RNAi-pMON96170:001 Dv.67_CG16916; The endopeptidase activity of inferring: CG16916 is directly to homologue
RNAi-pMON96166:001 Dv.70_CG5771; The Rab-protein 11 of inferring: CG5771 is directly to homologue
RNAi-pMON96160:001 Dv.74_CG6375; The pitchoune:CG6375 that infers is directly to homologue
RNAi-pMON97137:001 Dv.77_CG4214; The syntaxin 5 of inferring; The transhipment of participation intracellular protein: CG4214 is directly to homologue
RNAi-pMON96167:001 Dv.82_CG8264; The Bx42:CG8264 that infers is directly to homologue
RNAi-pMON96187:002 Dv.85_CG4494; The protein binding activity of inferring: CG4494 is directly to homologue
RNAi-pMON97126:001 Dv.88_CG8756; Unknown Function; Contain chitin binding domains: CG8756 directly to homologue
RNAi-pMON97130:001 Dv.93_CG8515; The epidermal structure component of inferring; Contain chitin binding domains: CG8515 directly to homologue
RNAi-pMON97111:001 Dv.105_CG1250_1; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue
RNAi-pMON97107:001 Dv.107_CG14813; COPI vacuole tunicle; Participating in golgi body transports to the endoplasmic reticulum intracellular protein: CG14813 is directly to homologue
RNAi-pMON97115:001 Dv.108_CG17248; N-synaptobrevin; The transhipment of participation intracellular protein: CG17248 is directly to homologue
RNAi-pMON97133:001 Dv.113; Unknown Function; The WCR unique sequences
RNAi-pMON97121:001 Dv.122_CG3164; The ATP-binding cassette translocator activity of inferring: CG3164 is directly to homologue
RNAi-pMON97134:001 Dv.127; Unknown Function; There is not homology with the people
Table 4: adopting feeding of southern corn rootworm (SCR) larva to raise the dsRNA construct that causes remarkable hypoevolutism level in the biological assay
Carrier Be expressed as the sequence of dsRNA
RNAi-pMON96172:001 Dv8_CG1088; The vacuole H+ATP enzyme E subunit of inferring: CG1088 is directly to homologue
RNAi-pMON96168:001 Dv9_CG2331; The atpase activity of inferring: CG2331 is directly to homologue
RNAi-pMON78424:001 Dv.10_CG6141
RNAi-pMON96155:002 Dv.10_CG6141; The ribosomal protein L 9:CG6141 that infers is directly to homologue.
RNAi-pMON78425:001 Dv.11_CG2746
RNAi-pMON96158:002 Dv.11_CG2746; The ribosomal protein L 19 of inferring: CG2746 is directly to homologue.
RNAi-pMON78416:001 Dv.13_CG11276
RNAi-pMON78434:001 Dv.14_CG17927_2; The myoglobulin heavy chain of inferring: CG17927 is directly to homologue
RNAi-pMON78435:001 Dv.18_CG1404; The RAN minor comonomer GTP enzyme of inferring: CG1404 is directly to homologue
RNAi-pMON78449:001 Dv.19_CG18174; The proteasome of inferring is regulated particle, covers inferior mixture, and rpn11:CG18174 is directly to homologue
RNAi-pMON78419:001 Dv.20_CG3180
RNAi-pMON78420:001 Dv.21_CG3320; The Rab1:CG3320 that infers is directly to homologue
RNAi-pMON78414:001 Dv.26_CG9261; The sodium of inferring/potassium exchange ATP enzyme: CG9261 is directly to homologue
RNAi-pMON97122:001 C1_Dv35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON97125:001 C3_Dv35; The Vha68-2:CG3762 that infers is directly to homologue; Concatermer
RNAi-pMON78427:008 Dv.35_CG3762; The Vha68-2:CG3762 that infers is directly to homologue.
RNAi-pMON78428:001 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 is directly to homologue
RNAi-pMON78442:001 Dv.57_CG2968; The hydrogen output ATP enzyme of inferring: CG2968 is directly to homologue
RNAi-pMON96177:001 Dv61_CG37251; The calcium atpase of inferring: CG3725 is directly to homologue
RNAi-pMON96166:001 Dv70_CG5771; The Rab-protein 11 of inferring: CG5771 is directly to homologue
RNAi-pMON97126:001 Dv88_CG8756; Unknown Function; Contain chitin binding domains: CG8756 directly to homologue
RNAi-pMON97111:001 Dv105_CG1250_1; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue
RNAi-pMON97112:001 Dv105_CG1250_2; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue
RNAi-pMON97107:001 Dv107_CG14813; COPI vacuole tunicle; Participate in the intracellular protein transhipment of golgi body to endoplasmic reticulum: CG14813 is directly to homologue
RNAi-pMON97121:001 Dv122_CG3164; The ATP-binding cassette translocator activity of inferring: CG3164 is directly to homologue
Table 5: adopting feeding of southern corn rootworm (SCR) larva to raise the dsRNA construct that causes remarkable dead level in the biological assay
Carrier Be expressed as the sequence of dsRNA
RNAi-pIC17546:003 LIB5462-091-A1-M1-G3 Dv1_CG6217 KNICKKOPF UNK
RNAi-pIC17504:055 From V-ATP enzyme subunit 2 sequences of Diabrotica virgifera virgifera total length est sequence as positive control
RNAi-pMON96155:001 Dv.10_CG6141; The ribosomal protein L 9:CG6141 that infers is directly to homologue
RNAi-pMON96158:001 Dv.11_CG2746; The ribosomal protein L 19 of inferring: CG2746 is directly to homologue
RNAi-pMON78416:001 Dv.13_CG11276
RNAi-pMON96154:003 Dv.14_CG17927; The myoglobulin heavy chain of inferring: CG17927 is directly to homologue; The cell of in the S perfect medium, growing
RNAi-pMON78438:001 Dv.17_CG10149; The proteasome p44.5 subunit of inferring, rpn6:CG10149 is directly to homologue
RNAi-pMON78449:001 Dv.19_CG18174; The proteasome of inferring is regulated particle, covers inferior mixture, and rpn11:CG18174 is directly to homologue
RNAi-pMON78440:001 Dv.20_CG3180; The rna plymerase ii that is oriented to DNA of inferring: CG3180 is directly to homologue
RNAi-pMON96156:001 Dv.20_CG3180; The rna plymerase ii 140kD subunit of inferring: CG3180 is directly to homologue
RNAi-pMON78420:001 Dv.21_CG3320; The Rab1:CG3320 that infers is directly to homologue
RNAi-pMON78427:006 Dv.35_CG3762; The Vha68-2:CG3762 that infers is directly to homologue.
RNAi-pMON78428:001 Dv.49_CG8055_1; The combination of inferring, carrier activity: CG8055_1 is directly to homologue
RNAi-pMON96177:001 Dv61_CG3725_1; The calcium atpase of inferring: CG3725 is directly to homologue
RNAi-pMON96166:001 Dv70_CG5771; The Rab-protein 11 of inferring: CG5771 is directly to homologue
RNAi-pMON96174:001 Dv86_CG5055; The bazooka:CG5055 that infers is directly to homologue
RNAi-pMON97111:001 Dv105_CG1250_1; The GTP zymoexciter, participate in the intracellular protein transhipment: CG1250 is directly to homologue
RNAi-pMON97107:001 Dv107_CG14813; COPI vacuole tunicle; Participate in the intracellular protein transhipment of golgi body to endoplasmic reticulum: CG14813 is directly to homologue
Embodiment 4
Transgenic plant transform and biological assay
In brief, the sequence of above-mentioned coding dsRNA construct at 5 ' end and link to each other by being operatively connected the sequence that constitutes in the 35S promoter of corn hsp70 intron, is held 3 ' to link to each other with poly-adenosine sequence with NOS3 ' Transcription Termination.Place careless glycosides phosphine to select the downstream of box this expression cassette.Then these boxes that link to each other are placed Agrobacterium tumefaciens Plant Transformation function carrier, be used for the maize transformation tissue, make it have careless glycosides phosphine tolerance, the selection incident shifts soil.R 0The velamen of plant is fed and is raised to western corn rootworm larva (WCR, Diabrotica virifera).The transgenic corns root is transferred on the culture dish, had the MS0D substratum that contains microbiotic and careless glycosides phosphine on it, carry out external selection.Make each root in each ware be subjected to the infection of two WCR larvas with thin paintbrush.(Parafilm) seals these wares with Parafilm, prevents the larva escape.Test is carried out under complete dark in 60% the RH Percival incubator at 27 ℃.Pollution and larva quality are monitored.Feed raise root tissue six days after, larva is transferred in the WCR food in 96 orifice plates.Larva be allowed to ingest this food eight days makes that total fortnight that is determined as is long.To the larva quality and the in addition record of surviving, be used for analyzing.The larva conceptual data is carried out single factor ANOVA analysis and Dunnett check, seek the significance,statistical of comparing with unconverted negative control.On two kinds of incidents, feed and raise the back to measure larvae development slow, and compare with the growth of feeding the larva of raising the negative control plant.
With transgenic corn plant (R 0) plant in 10 inches jars that contain Metromix soil.When plant reaches the V4 growth phase, make about 1000 western corn rootworms (WCR, Diabrotica virifera) ovum attack into root area.Same genotypic non-transgenic corn is attacked at similar growth phase, to be used as negative control.Ovum is carried out preincubate, make and in 24 hours of invasion and attack, to hatch.Larva is allowed to ingest for 3 weeks at root system.Remove plant from soil, it is cleaned, making can be at larva feed assessment root.Use tubercle damage scoring (NIS) in addition classification of root damage, wherein not damage of 0 expression, a joint of 1 expression root has been lacked in 1.5 inches, and 2 expressions, two joints are short, and 3 expressions, 3 joints are short.Because the plant that is used to evaluate and test be transform after directly from tissue culture, also because transformation event is unique,, can not obtain statistics so only evaluate and test the individual plant plant at every kind of incident this moment.All plant in the mensuration have all shown sign and symptom that larva ingests, and this shows and has obtained successful invasion and attack.The negative control plant on average be moderate to major injury, and the root of transgenic plant provides the remarkable control that larva is ingested, tubercle damage scoring is about 0.2 or littler.
Embodiment 5
Silencing methods realization insect pest gene with the ta-siRNA mediation is prevented
Make a kind of alternative method of gene silencing in the plant insect adopt a class trans-acting siRNA (ta-siRNA) (people such as Dalmay, 2000 of recent findings; People such as Mourrain, 2000; People such as Peragine, 2004; People such as Vazquez, 2004).Ta-siRNA is that the single stranded RNA transcript of naturally occurring miRNA target from cell obtains.Use microRNA to be used for being described in the U.S. Provisional Patent Application sequence number 60/643,136 people 2004 such as () Carrington in the method that plant carries out gene silencing to bring out ta-siRNA, its by reference integral body incorporate this paper into.Identified at least a insect specificity miRNA that in corn rootworm larva intestinal epithelial cell, expresses.Identify at least a target rna transcription thing sequence, the miRNA complementation of expressing in described sequence and the cell with this insect specificity miRNA then.Corresponding target sequence is the short sequence that is no more than 21 adjacent nucleotides, when in the cell type with functional r NAi approach during as the part of rna transcription thing and the miRNA contact corresponding with it, described short sequence causes the cutting to described transcript of cut substrate mediation.In case identified the miRNA target sequence, at least a miRNA target sequence and second sequence are merged, described second sequence is corresponding to using this method to carry out the part of reticent insect gene.For example, with arbitrary sequence or its part among miRNA target sequence and the SEQ ID NO:1-SEQ ID NO:906, for example the sequence of corn rootworm vacuole ATP enzyme (V-ATP enzyme) gene merges.The miRNA target sequence can place 5 ' end of V-ATP enzyme gene, and 3 ' holds or be embedded in the middle of this gene.Use is perhaps repeatedly used in the mosaic of miRNA target sequence and target-gene sequence with a kind of miRNA target sequence corresponding to the multiple miRNA target sequence of multiple miRNA gene, may be preferred.Target-gene sequence can be a random length, but minimum is 21bp.
Use any a large amount of suitable promotor or other transcription regulatory element, the mosaic of miRNA target sequence target-gene sequence is expressed in the vegetable cell, get final product as long as can transcribe at the cell type that will be provided in pest food (for example, being used for controlling the corn root of corn rootworm).
This method can have additional advantage: can send than long RNA molecule and pass to the target insect.Typically, the dsRNA that produces in plant can easily be processed as short rna by Dicer, when beyond the source side formula feed when raising to some insects, this may be invalid.In the method, produce the strand transcript in vegetable cell, it is absorbed by insect, turns to dsRNA at the insect transit cell, in cell, it is processed into the ta-siRNA that can cause post-transcriptional silencing to one or more genes in one or more target insects again.
Embodiment 6
Be provided for the method for dna sequence dna of the gene silencing of dsRNA mediation
Present embodiment has illustrated the method for the dna sequence dna of the gene silencing that is provided for the dsRNA mediation.More specifically, present embodiment has been described the selection to the improved DNA in the gene silencing that can be used for the dsRNA mediation, and this realizes by following step: (a) select initial dna sequence dna from target gene, it comprises more than 21 adjacent Nucleotide; (b) identify at least one shorter dna sequence dna, it derives from the zone of initial dna sequence, by be predicted to be do not produce undesired polypeptide and with constitute to the zone that the known array of homologue does not have identity such as homologue/directly; And the dna sequence dna of (c) selecting to be used for the gene silencing of dsRNA mediation, it comprises the dna sequence dna that at least one is shorter.Undesired polypeptide includes but not limited to, with the polypeptide of sensitization homologous peptide and with known polypeptide toxin homologous polypeptide.
WCR V-ATP enzyme has proved to feed to raise in the mensuration at corn rootworm and has played a role, with the silence (as the means of control larval growth) of check dsRNA mediation.CDNA sequence from the vacuole ATP enzyme gene (V-ATP enzyme) of western corn rootworm (WCR) (Diabrotica cirgifera virgifera LeConte) is selected, and is used as initial dna sequence dna.Screen initial dna sequence dna, be used for identifying with lower area: in described zone, each adjacent segment that comprises at least 21 Nucleotide only with known vertebrates sequence in 21 adjacent Nucleotide less than 21 couplings.Identified the sequence fragment that surpasses about 100 adjacent nucleotides, wherein do not contained described 21/21 and hit.Therefore, can with comprise fragment length, GC content, sequence, based on the sequence of the corresponding gene in the model biology or function and the standard of the secondary structure of function of predicting and prediction (people such as Elbashir for example 2001b) can be used to select and design the sequence of use.Made up the various combination of these sequence fragments, be used for construction expression and be dsRNA and be used for above-described insect feeding the gomphosis DNA array of raising biological assay.
Embodiment 7
The insect that carries out with the sequence that is selected from est database feeds other result who raises biological assay
Present embodiment has illustrated to be found can effectively cause other slow and/or dead sequence of larvae development as the double-stranded RNA sequence when the rootworm larva attacks.Raise the corn rootworm larva method, dsRNA use description with insect biological assay such as embodiment 1-3.Result of study has confirmed that the larvae development of the conspicuous level (p<0.05) that causes with the part that contains with multiple different genes type homologous sequence is slow and/or dead.Produce remarkable hypoevolutism and/or dead sequence and carrier, and the corresponding sequence numbering that is expressed as the sequence of dsRNA is shown in following table 6.Being used for exemplary binary vector pMON98503 that corn transforms contains and is useful on right side and the following element between the T-DNA edge, left side: e35S-HSP70-DV49 (antisense orientation)-general spacer DV49 (the sense orientation)-hsp17 that transfers in the vegetable cell; ACT (promotor and intron)-CTP2 transports signal-CP4-NOS.Be used for another kind of exemplary binary vector pMON98504 that corn transforms and contain following element between right side and left side edge: e35S-HSP70-C1 (antisense orientation)-general spacer C1 (sense orientation)-hsp17; ACT (promotor and intron)-CTP2 transports signal-CP4-NOS.
Table 6: the insect that carries out with southern corn rootworm or western corn rootworm feeds to raise and has confirmed remarkable hypoevolutism and/or other dead dsRNA construct in the biological assay
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON98356 Dv164; Unknown Function, the WCR unique sequences 726
pMON98354 Dv172; Unknown Function, the WCR unique sequences 727
pMON97191 Dv189; Unknown Function, the WCR unique sequences 728
pMON98359 Dv200; Unknown Function, the WCR unique sequences 729
pMON38880 Dv207_F39H11.5; The pbs-7 that infers, endopeptidase: F39H11.5 is directly to homologue 730
pMON101054 Dv208_F58F12_1; The plastosome F1F0-ATP synthase of inferring, subunit delta/ATP16:F58F12_1 is directly to homologue 731
pMON98437 Dv210_K11H12_2; The rpl-15 that infers, ribosomal structural constituent: K11H12_2 is directly to homologue 732
pMON98435 Dv211_R12E2_3; The rpn-8 that infers, translation initiation factor, the 26S proteasome is regulated mixture, and subunit RPN8:R12E2_3 is directly to homologue 733
pMON98447 Dv212_C17H12_14; The vha-8 that infers, hydrogen output ATP enzyme: C17H12_14 is directly to homologue 734
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON98448 Dv213_B0464_1; The drs-1 that infers, tRNA ligase enzyme: B0464_1 is directly to homologue 735
pMON101059 Dv214_F53G12_10; The rpl-7 that infers, ribosomal structural constituent: F53G12_10 is directly to homologue 736
pMON98442 Dv216_C52E4_4; The rpt-1 that infers, the 19S of proteasome regulate the ATP enzyme subunit C52E4_4 of mixture directly to homologue 737
pMON98441 Dv218_K01G5_4; The ran-1 that infers, minor comonomer GTP enzyme: K01G5_4 is directly to homologue 738
pMON98440 Dv219_C15H11_7; The pas-1 that infers, endopeptidase: C15H11_7 is directly to homologue 739
pMON101081 Dv223_R10E11.1; The cbp-1 that infers, the homologue of transcriptional coactivator CBP and p300: R10E11.1 is directly to homologue 740
pMON101050 Dv224_F11C3_3; The unc-54 that infers, the ATP combination; Motorius activity: F11C3_3 is directly to homologue 741
pMON101051 Dv225_C37H5_8; The hsp-6 that infers, heat shock protein 6:C37H5_8 is directly to homologue 742
pMON38888 Dv226_C47E12.5; The uba-1 that infers, ubiquitin activates: C47E12.5 is directly to homologue 743
pMON38887 Dv227_F54A3.3; The chaperone mixture component of inferring, TCP-1 γ subunit: F54A3.3 is directly to homologue 744
pMON101110 Dv229_D1081.8; The Myb-sample DNA combination of inferring: D1081.8 is directly to homologue 745
pMON101052 Dv230_F55A11_2; The syn-3 that infers, protein transport albumen; Syntaxin: F55A11_2 is directly to homologue 746
pMON101107 Dv231_C30C11.1; The mitochondrial ribosomal protein L32:C30C11.1 that infers is directly to homologue 747
pMON101055 Dv232_B0250_1; The rpl-2 that infers, ribosomal structural constituent: B0250_1 is directly to homologue 748
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON98446 Dv233_F54C9_5; The rpl-5 that infers, the 5SrRNA combination, ribosomal structural constituent: F54C9_5 is directly to homologue 749
pMON101138 Dv235_C04F12.4; The rpl-14 that infers, big ribosomal subunit L14 albumen: C04F12.4 is directly to homologue 750
pMON98449 Dv236_C01G8_5; The erm-1 that infers, ezrin/radicin/moesin (ERM) cytoskeleton linker family: C01G8_5 is directly to homologue 751
pMON98439 Dv237_F57B9_10; The rpn-6 that infers, proteasome is regulated particle, and non--ATP enzyme-sample: F57B9_10 is directly to homologue 752
pMON98436 Dv240_F53A3_3; The rps-22 that infers, ribosomal structural constituent: F53A3_3 is directly to homologue 753
pMON101078 Dv241_F32H2.5; The alcoholdehydrogenase of inferring, zinc is dependent: F32H2.5 is directly to homologue 754
pMON101058 Dv242_B0336_2; The arf-1 that infers, minor comonomer GTP enzyme: B0336_2 is directly to homologue 755
pMON101057 Dv244_C14B9_7; The rpl-21 that infers, ribosomal structural constituent: C14B9_7 is directly to homologue 756
pMON98444 Dv245_C26F1_4; The rps-30 that infers, ribosomal protein, small subunit: C26F1_4 is directly to homologue 757
pMON98434 Dv247_C13B9_3; The δ subunit of the coatmer of inferring (COPI) mixture: C13B9_3 is directly to homologue 758
pMON101053 Dv248_F38E11_5; The vacuole of inferring is outer by mixture COPI, and β ' subunit: F38E11_5 is directly to homologue 759
pMON98445 Dv249_F37C12_9; The rps-14 that infers, ribosomal structural constituent: F37C12_9 is directly to homologue 760
pMON101056 Dv250_CD4_6; The pas-6 that infers, endopeptidase: CD4_6 is directly to homologue 761
pMON101104 Dv251_D1007.12; The rpl-24.1 that infers, ribosomal structural constituent: D1007.12 is directly to homologue 762
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON101088 Dv252_C49H3.11; The rps-2 that infers, ribosomal structural constituent: C49H3.11 is directly to homologue 763
pMON101079 Dv253_C26D10.2; The hel-1 that infers, ATP-RNA-dependent helicase: C26D10.2 is directly to homologue 764
pMON101085 Dv254_B0336.10; The rpl-23 that infers, ribosomal structural constituent: B0336.10 is directly to homologue 765
pMON38879 Dv255_C36A4.2; The Cytochrome P450 family member who infers: C36A4.2 is directly to homologue 766
pMON101087 Dv256_K05C4.1; The pbs-5 that infers, proteasome beta subunit: K05C4.1 is directly to homologue 767
pMON101082 Dv257_F29G9.5; The rpt-2 that infers, 26S proteasome regulate mixture: F29G9.5 directly to homologue 768
pMON101084 Dv258_F40F8.10; The rps-9 that infers, ribosomal structural constituent: F40F8.10 is directly to homologue 769
pMON101083 Dv259_K07D4.3; The rpn-11 that infers, the 26S proteasome is regulated mixture, and subunit RPNI1:K07D4.3 is directly to homologue 770
pMON101080 Dv260_F49C12.8; The rpn-7 that infers, proteasome is regulated particle, and non--ATP enzyme-sample: F49C12.8 is directly to homologue 771
pMON101115 Dv261_D1054.2; The pas-2 that infers, endopeptidase: D1054.2 is directly to homologue 772
pMON101141 Dv263_F55A3.3; The metal exopeptidase of inferring: F55A3.3 is directly to homologue 773
pMON101126 Dv264_F56F3.5; The rps-1 that infers, ribosomal structural constituent: F56F3.5 is directly to homologue 774
pMON101133 Dv266_C09D4.5; The rpl-19 that infers, ribosomal structural constituent: C09D4.5 is directly to homologue 775
pMON38881 Dv268_R06A4.9; The polyadenylation factor I mixture of inferring, subunit PFS2:R06A4.9 is directly to homologue 776
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON101135 Dv271_F37C12.4; The rpl-36 that infers, ribosomal structural constituent: F37C12.4 is directly to homologue 777
pMON101132 Dv273_F54E7.2; The rps-12 that infers, ribosomal structural constituent: F54E7.2 is directly to homologue 778
pMON101139 Dv274_C23G10.4; The rpn-2 that infers, proteasome is regulated particle, and non--ATP enzyme-like:C23G10.4 is directly to homologue 779
pMON101130 Dv275_C03D6.8; The rpl-24.2 that infers, ribosomal structural constituent: C03D6.8 is directly to homologue 780
pMON101119 Dv276_C26E6.4; The RNA polymerase that is oriented to DNA of inferring: C26E6.4 is directly to homologue 781
pMON101134 Dv277_R13A5.8; The rpl-9 that infers, ribosomal structural constituent: R13A5.8 is directly to homologue 782
pMON101127 Dv279_F42C5.8; The rps-8 that infers, ribosomal structural constituent: F42C5.8 is directly to homologue 783
pMON101122 Dv280_F13B10.2; The rpl-3 that infers, big ribosomal subunit L3:F13B10.2 is directly to homologue 784
pMON101116 Dv281_T05C12.7; The cct-1 that infers, chaperone mixture component, TCP-1alpha subunit: T05C12.7 is directly to homologue 785
pMON101125 Dv282_F07D10.1; The rpl-11.2 that infers, ribosomal structural constituent: F07D10.1 is directly to homologue 786
pMON38883 Dv283_T05H4.6; The peptide chain release factor 1 (eRF1) of inferring: Dv283_T05H4.6 is directly to homologue 787
pMON101124 Dv284_C47E8.5; The daf-21 that infers, heat shock 90 albumen, chaperone activity: C47E8.5 is directly to homologue 788
pMON101120 Dv285_M03F4.2; The act-4 that infers, Actin muscle: M03F4.2 is directly to homologue 789
pMON101137 Dv286_F25H5.4; The eft-2 that infers, translation elongation factor: F25H5.4 is directly to homologue 790
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON101140 Dv287_F26D10.3; The hsp-1 that infers, heat shock protein: F26D10.3 is directly to homologue 791
pMON101117 Dv288_F28D1.7; The rps-23 that infers, ribosomal structural constituent: F28D1.7 is directly to homologue 792
pMON38886 Dv290_CG11979; The H-output ATP enzyme of inferring: CG11979 is directly to homologue 793
pMON38885 Dv291_CG13628; The H-output ATP enzyme of inferring: CG13628 is directly to homologue 794
pMON101103 Dv293_CG31237; The rna plymerase ii that is oriented to DNA of inferring: CG31237 is directly to homologue 795
pMON101096 Dv294_CG8669; The cryptocephal that infers; Transcription factor participates in moulting cycle, and nymphosis and metamorphosis: CG8669 is directly to homologue 796
pMON101095 Dv295_CG8048; The vacuole H+ATP enzyme 44kD C subunit of inferring: CG8048 is directly to homologue 797
pMON101100 Dv298_CG9032; The H-output ATP enzyme of inferring: CG9032 is directly to homologue 798
pMON101111 Dv299_CG17369; The H-output ATP enzyme of inferring: CG17369 is directly to homologue 799
pMON101129 Dv303_CG4152; The ATP-RNA-dependent helicase of inferring: CG4152 is directly to homologue 800
pMON101136 Dv305_CG4916; The ATP-RNA-dependent helicase of inferring: CG4919 is directly to homologue 801
pMON101131 Dv315_CG9160; The nadh dehydrogenase of inferring: CG9160 is directly to homologue 802
pMON101123 Dv316_CG8764; Panthenol-the cytopigment of inferring-c reductase enzyme: CG8764 is directly to homologue 803
pMON98364 The C4_Dv49_CG8055 concatermer; The combination of inferring, carrier activity: CG8055 is directly to homologue 804
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON98365 The C5_Dv49_CG8055 concatermer; The combination of inferring, carrier activity: CG8055 is directly to homologue 805
pMON98368 The highly effective C6 concatermer of WCR target, about 50%GC standard, by according to 5 '-3 ' be Dv26, Dv49, Dv23, Dv20, Dv13, Dv22, the fragment composition of the order of Dv18 806
pMON98369 The C7 concatermer of insect specific target, about 50%GC standard, by according to 5 '-3 ' be Dv6, Dv1, Dv88, Dv93, Dv4, Dv113, Dv127, the fragment of the order of Dv99 is formed 807
pMON98372 The C8 concatermer; The sodium of inferring/potassium exchange ATP enzyme: CG9261 is directly to homologue 808
pMON98373 The C9 concatermer; The sodium of inferring/potassium exchange ATP enzyme: CG9261 is directly to homologue 809
pMON98366 C10 concatermer with gene of the identical/different binding modes of inferring, about 50%GC standard 810
pMON98367 The highly effective C12 concatermer of WCR target, about 50%GC standard, by according to 5 '-3 ' be that the fragment of the order of Dv23-Dv13-Dv26-Dv18-Dv49-Dv22-Dv20 is formed 811
pMON98371 The C14 concatermer of activated gene target in different biologies, about 50% GC standard 812
pMON98503 The DV49 that comprises from Diabrotica virgifera infers ESCRT-III (the required interior body sorting mixture of transhipment III) complex subunit 820
pMON98504 Comprise the Vha68-2:CG3762 that infers directly to homologue; 250bp concatermer C1; 821
pMON102862 Dv319_CG14750; The ESCRTII that infers, Vps25:CG14750 are directly to homologue 835
pMON102863 Dv320_CG9712; The ESCRTI that infers, Vps23:CG9712 are directly to homologue 836
pMON102861 Dv321_CG12770; The ESCRTI that infers, Vps28:CG12770 are directly to homologue 837
Carrier Be expressed as the sequence of dsRNA SEQ ID NO
pMON102865 Dv322_CG14542; The ESCRT III that infers, Vps2:CG14542 is directly to homologue 838
pMON102866 Dv323_CG4071; The ESCRT III that infers, Vsp20:CG4071 is directly to homologue 839
pMON102871 Dv326_CG3564; The protein carrier of inferring, the component of COPI vacuole tunicle: CG3564 is directly to homologue 840
pMON102873 Dv327_CG6223; The coatmer of inferring, the component of COPI vacuole tunicle: CG6223 is directly to homologue 841
pMON102877 Dv328_CG6948; The clathrin light-chain of inferring, the outer quilt of the depression of bag quilt: CG6948 is directly to homologue 842
pMON102872 Dv330_CG9543; The COPI vacuole tunicle of inferring: CG9543 is directly to homologue 843
pMON102879 Dv331_CG5183; The KDEL sequence combination of inferring: CG5183 is directly to homologue 844
pMON102867 Dv335_F11C1.6; The nhr-25 that infers, DNA combination: F11C1.6 is directly to homologue 845
pMON102870 Dv337_CG18734; The fluorine woods proteolytic enzyme 2 of inferring, serine-type endopeptidase: CG18734 is directly to homologue 846
pMON102875 Dv329_CG7961; The coatmer of inferring, the component of COPI vacuole tunicle: CG7961 is directly to homologue 874
Followingly render a service test, wherein utilize the offspring of maize plant, described maize plant is to transform with selected insect control construct:
1. plant and planted back 7 days: 25 ℃, under the 60%RH under dark fully condition at 10,000 WCR ovum of each incident incubation (10 plant of each incident), incubation 7 days.
2. attacked back 14 days: with plant from 4 " the mud jar is transplanted to 8 " and jar; Can get v4 tip of a root sample and carry out gene expression research.
3. plant and planted back 14 days: the WCR ovum is washed out from soil.Ovum and soil are placed 60 purpose sieves, and one 30 purpose sieve is placed on above the 60 purpose sieves, prevent current with the protection ovum.Adopt nozzle warm water cleaning down, up to removing soil.
4. ovum is suspended in 2% (w/v) Difco agar-agar soln every 1ml ovum 25mL solution.Adopt for example Eppendorf running fire type micropipet,, ovum is attacked in the soil, about 1000 ovum of each plant with about 3 or 4 five equilibriums.Before invasion and attack, in soil, dig a hole, on the invasion and attack bonnet with spatula.
5. plant and planted back 28 days, can take out v8 tip of a root sample and carry out gene expression research.
6. plant and planted back 35 days, assess this mensuration.Cut off plant with pruning scissors, stay about 6 " stem.Burrow in the plant stake that contains event information, knotting (zip tied) is to stem.Remove soil as much as possible from root system.With remaining soil of water jet standpipe flush away.
7. the inspection root damages classification with Olsen (0-3) the NIS standard of WCR larva infringement to root.
The insect control result that Fig. 1 and Fig. 2 explanation obtain with WCR invasion and attack F1 maize plants (deriving from pMON98503 or pMON98504 plant transformed) back.Substantially rendeing a service in the test by the growth room that carries out mentioned above, in the offspring who transforms the incident that obtains with pMON98503 or pMON98504, observing the NIS scoring that is equal to or less than the economic damage threshold value.
To embodiment 3 and the active selected genes assembling of the significantly anti-western corn rootworm of 7 displayings of describing total length EST dna sequence dna.These est sequences are listed in table 7:
Table 7: at the est sequence of WCR target assembling
The sequence of assembling SEQ ID NO
Dv9 total length (aka Apple); The CG2331 that infers is directly to homologue 813
Dv10 total length (Rp19); The CG6141 that infers is directly to homologue 814
Dv11 total length (Rpl19); The CG2746 that infers is directly to homologue 815
Dv13 total length (Rps4); The CG11276 that infers is directly to homologue 816
Dv35 total length v-ATP enzyme A; CG3762 is directly to homologue 817
The Dv49 total length of CG8055 is directly to homologue 818
The Dv248 total length of CG6699 is inferred directly to homologue 819
Embodiment 8
The preparation of Dv49 and Dv248 sequence and efficacy results
Based on the phenotype that knocks out mutant in corresponding encoded district in the function that comprises prediction, other biology, fragment length, GC content, with the similarity of known array and the secondary structure of prediction (people such as Elbashir for example, standard 2001b), the part of the EST of selection assembling and the flanking sequence of Dv49 (SEQ IDNO:818) and Dv248 (SEQ ID NO:819) is carried out further biological activity determination.Based on the prediction activity of independent anti-WCR, external synthetic each Dv49 and Dv248 sequence, and according to grouping shown in Fig. 3-4 and the table 8, and be applied to the WCR larva.
Table 8: Dv49 and the Dv248 fragment of rendeing a service assembling at anti-WCR
Fragment SEQ ID NO
F1 822
F2 823
F3 824
F4 825
F5 826
F6 827
F7 828
F8 829
F9 830
F10 831
F11 832
F12 833
F13 834
Fragment F1-F3 is corresponding to the part of total length Dv49 transcript.Fragment F4-F6 is corresponding to the part or the flanking region of Dv248 transcript.Fragment F7-F13 is two or more the segmental concatermers among the fragment F1-F6, as shown in Figure 4.Fragment F13 (SEQ ID NO:834) represents C38 (Dv49-Dv248) concatermer.
The dose response data of F1-F13 are shown in Fig. 5-7.As shown in Figure 5, when feeding with 0.1ppm when raising to the WCR larva, fragment F4-F6 comprises the activity (the dead % of larva) of the sequence (Fig. 4) that derives from Dv248 being significantly higher than contrast.When feeding with 0.02ppm when raising, fragment F6 also shows remarkable activity.The activity of fragment F5 under lowest dose level may be an artefact, because the larva of survival is not showed hypoevolutism.
As shown in Figure 6, when feeding with 0.1ppm when raising the WCR larva, each fragment of F7-F10 has showed that all statistics is active significantly.When feeding with 0.02ppm when raising the WCR larva, fragment F9 and F10 have showed that also statistics is active significantly, and when feeding with 0.01ppm when raising the WCR larva, fragment F10 shows that also statistics is active significantly.0.01ppm the time the F8 activity may be artefact.
As shown in Figure 7, when feeding with 0.02ppm or greater concn when raising the WCR larva, fragment F11-F13 shows that statistics is active significantly.In addition, Zui Da fragment (F12 and F13) shows active in the concentration of 0.005ppm and Geng Gao.
Embodiment 9
Derive from other active concatermer sequence of concatermer C6
As shown in table 9, (carrying out according to for example embodiment 2) identified that the part of the active concatermer C6 (SEQ ID NO:806) that derives from pMON98368 can suppress corn rootworm (WCR) growth and/or survival in food covering biological assay.C6 total length concatermer contains 7 target subfragments, and each length is 70bp, shown in table 6 and table 9.
Table 9 total length C6 concatermer and selected inferior part (SEQ ID NOs:806,847-873) effectiveness in the biological assay of rootworm food
Concatermer Sequence Dead % during 1ppm SEQ ID NO
The C6 total length Dv26-Dv49-Dv23-Dv20-Dv13-Dv22- Dv18 100 806
C6.1 Dv26-Dv49 35.3 847
C6.2 Dv26-Dv49-Dv23 57.1 848
C6.3 Dv26-Dv49-Dv23-Dv20 84.7 849
C6.4 Dv26-Dv49-Dv23-Dv20-Dv13 51 850
C6.5 Dv26-Dv49-Dv23-Dv20-Dv13-Dv22 41.3 851
C6.6 Dv49-Dv23 94.6 852
C6.7 Dv49-Dv23-Dv20 75.6 853
C6.8 Dv49-Dv23-Dv20-Dv13 50 854
C6.9 Dv49-Dv23-Dv20-Dv13-Dv22 56.4 855
C6.10 Dv49-Dv23-Dv20-Dv13-Dv22-Dv18 52.5 856
C6.11 Dv23-Dv20 74.6 857
C6.12 Dv23-Dv20-Dv13 63.4 858
C6.13 Dv23-Dv20-Dv13-Dv22 58.5 859
C6.14 Dv23-Dv20-Dv13-Dv22-Dv18 60.8 860
C6.15 Dv20-Dv13 57.5 861
Concatermer Sequence Dead % during 1ppm SEQ ID NO
C6.16 Dv20-Dv13-Dv22 20 862
C6.17 Dv20-Dv13-Dv22-Dv18 44.8 863
C6.18 Dv13-Dv22 71.1 864
C6.19 Dv13-Dv22-Dv18 52.5 865
C6.20 Dv22-Dv18 44.6 866
C6.28 Dv26 58.9 867
C6.29 Dv49 72.3 868
C6.30 Dv23 71.9 869
C6.31 Dv20 62.6 870
C6.32 Dv13 54.2 871
C6.33 Dv22 56.7 872
C6.34 Dv18 44.6 873
Total length concatermer C7 contains 8 target subfragments, and each subfragment length is 70bp, and is as shown in table 6.Similarly, total length concatermer C12 contains 7 target subfragments from Dv23-Dv13-Dv26-Dv18-Dv49-Dv22-Dv20, and length is 53-80bp, shown in table 6 and table 10.Table 10 total length C12 concatermer and selected subfragment (SEQ ID NOs:811, composition 887-892)
Concatermer Fragment The sequence (SEQ ID NO) that comprises with 5 '-3 ' direction
C12_full length Dv23-Dv13-Dv26-Dv18-Dv49-Dv22-D v20 811
C12.1 Dv23-Dv13 887
C12.2 Dv23-Dv13-Dv26 888
C12.3 Dv23-Dv13-Dv26-Dv18 889
C12.4 Dv23-Dv13-Dv26-Dv18-Dv49 890
Concatermer Fragment The sequence (SEQ ID NO) that comprises with 5 '-3 ' direction
C12.5 Dv23-Dv13-Dv26-Dv18-Dv49-Dv22 891
C12.6 Dv13-Dv26 892
C12.7 Dv13-Dv26-Dv18 893
C12.8 Dv13-Dv26-Dv18-Dv49 894
C12.9 Dv13-Dv26-Dv18-Dv49-Dv22 895
C12.10 Dv13-Dv26-Dv18-Dv49-Dv22-Dv20 896
C12.11 Dv26-Dv18 897
C12.12 Dv26-Dv18-Dv49 898
C12.13 Dv26-Dv18-Dv49-Dv22 899
C12.14 Dv26-Dv18-Dv49-Dv22-Dv20 900
C12.15 Dv18-Dv49 901
C12.16 Dv18-Dv49-Dv22 902
C12.17 Dv18-Dv49-Dv22-Dv20 903
C12.18 Dv49-Dv22 904
C12.19 Dv49-Dv22-Dv20 905
C12.20 Dv22-Dv20 906
Table 11 has been listed and has been used for fixed other coleopteran pest of target, comprises other sequence of chrysomelid species and other Coccinellidae and Chrysomelidae insect.
Table 11: other Coleoptera target sequence
Sequence and source SEQ ID NO
Dbar248_CG6699(D.barberi) 875
Dbal248_CG6699(D.balteata) 876
Du248_CG6699(D.undecimpunctata howardi) 877
Dz248_CG6699(D.virgifera zea) 878
Dv248_CG6699(D.virgifera virgifera) 879
Ev248_CG6699(Epilachna varivestis) 880
Ld248_CG6699(Leptinotarsa decemlineata) 881
Dbal49_CG8055_2(D.balteata) 882
Db49_CG8055_2(D.barberi) 883
Du49_CG8055_2(D.undecimpunctata howardi) 884
Dz49_CG8055_2(D.virgifera zea) 885
Dv49_CG8055_2(D.virgifera virgifera) 886
***
According to present disclosure, can prepare and implement open and claimed all compositions and the method for this paper, and not need undo experimentation.Although described the compositions and methods of the invention according to above-mentioned exemplary, those skilled in the art can be clear and definite, under the prerequisite that does not deviate from true concept of the present invention, spirit and scope, can the order of the step of composition described herein, method and step or method be changed, changes, modify and change.More specifically, can be clear and definite, some chemistry reagent relevant with physiology can replace reagent described herein, and can obtain same or analogous result.Those skilled in the art can be clear and definite all these similar replacements and modify all think and be included in spirit of the present invention, scope and the notion that claims limit.
Reference
Following document as long as they provide exemplary process or other details of replenishing content described herein, just is attached to herein especially by reference.
United States Patent (USP) 4,245,432; United States Patent (USP) 4,272,417; United States Patent (USP) 4,339,456; United States Patent (USP) 4,372,080; United States Patent (USP) 4,383,391; United States Patent (USP) 4,465,017; United States Patent (USP) 4,536,475; United States Patent (USP) 4,634,587; United States Patent (USP) 4,693,977; United States Patent (USP) 4,735,015; United States Patent (USP) 4,759,945; United States Patent (USP) 4,876,197; United States Patent (USP) 4,880,734; United States Patent (USP) 4,886,937; United States Patent (USP) 4,959,317; United States Patent (USP) 5,080,925; United States Patent (USP) 5,107,065; United States Patent (USP) 5,107,787; United States Patent (USP) 5,231,020; United States Patent (USP) 5,283,184; United States Patent (USP) 5,300,127; United States Patent (USP) 5,302,523; United States Patent (USP) 5,328,942; United States Patent (USP) 5,384,253; United States Patent (USP) 5,389,399; United States Patent (USP) 5,464,765; United States Patent (USP) 5,501,967; United States Patent (USP) 5,527,695; United States Patent (USP) 5,53 8,877; United States Patent (USP) 5,538,880; United States Patent (USP) 5,550,318; United States Patent (USP) 5,554,445; United States Patent (USP) 5,563,055; United States Patent (USP) 5,580,544; United States Patent (USP) 5,591,616; United States Patent (USP) 5,593,874; United States Patent (USP) 5,622,003; United States Patent (USP) 5,633,435; United States Patent (USP) 5,661,103; United States Patent (USP) 5,698,425; United States Patent (USP) 5,712,135; United States Patent (USP) 5,759,829; United States Patent (USP) 5,780,708; United States Patent (USP) 5,789,214; United States Patent (USP) 5,791,084; United States Patent (USP) 5,804,693; United States Patent (USP) 5,834,447; United States Patent (USP) 5,837,848; United States Patent (USP) 5,849,320; United States Patent (USP) 5,876,739; United States Patent (USP) 5,882,713; United States Patent (USP) 5,891,246; United States Patent (USP) 5,918,413; United States Patent (USP) 5,939,356; United States Patent (USP) 6,118,047; United States Patent (USP) 6,326,193; United States Patent (USP) 6,489,542; United States Patent (USP) 6,506,559;
U.S. Patent Application Serial Number 10/205,189; U.S. Patent Application Serial Number 10/465,800; U.S. Patent Application Serial Number 60/643,136
U.S. Patent Application Publication No. 2002/0048814; U.S. Patent Application Publication No. 2002/0048814; U.S. Patent Application Publication No. 2003/0018993; U.S. Patent Application Publication No. 2003/0061626; U.S. Patent Application Publication No. 2003/0150017; U.S. Patent Application Publication No. 2003/0175965; U.S. Patent Application Publication No. 2004/0029283;
Altschul et al.,J.Mol.Biol.,215:403-410,1990.
Ausubel et al.,In:Current Protocols in Molecular Biology,John,Wiley & Sons,Inc,New York,1998.
Babst et al.,Dev.Cell,3:271-282,2002.
Beutler et al.,N.Engl.J.Med.,324(19):1370,1991.
Bevan et al.,Nature,304:184-187,1983.
Botstein et al.,Gene,8(1):17-24,1979.
Brake et al.,Proc.Natl.Acad. Sci.USA,81(15):4642-4646,1984.
Brutlag et al.,Computers and Chemistry,17:203-207,1993.
Current Protocols in Molecular Biology,Ausubel et al.(Eds.),GreenePublishing and Wiley-Interscience,NY,1989.
Dalmay et al.,Cell,101:543-553,2000.
Dellaporta et al.,In:Chromosome Structure and Function:Impactof New Concepts,18th Stadler Genetics Symposium,11:263-282,1988.
Dow et al.,J.Exp.Biol.,200(Pt 2):237-245,1997.
Dow,J.Bioenerg.Biomembr.,31(1):75-83,1999.
Elbashir et al.,Genes Dev.,5(2):188-200,2001a.
Elbashir et al.,EMBO J.20:6877-6888,2001b.
Elbashir et al.,Methods,26:199-213,2002.
European application 0 120 516
European application 0 122 791
European application 0 127,328
Hamilton and Baulcombe,Science,286(5441):950-952,1999.
Hannon et al.,J.Mol.Neurosci.,18(1-2):15-27,2002.
Haymes et al.,In:Nucleic acid hybridization,a practical approach,IRL Press,Washington,DC,1985.
Herrera-Estrella et al.,Nature,303:209-213,1983.
Ikatu et al.,Bio/Technol.,8:241-242,1990.
Jefferson et al.,EMBO J.,6:3901-3907,1987a.
Jefferson et al.,Plant Mol.Biol,Rep.,5:387-405,1987b.
Kaeppler et al.,Plant Cell Rep.,8:415 418,1990.
Katz et al.,J.Gen.Microbiol.,129:2703-2714,1983.
Kennerdell and Carthew,Cell,95:1017-1026,1998.
Kennerdell and Carthew,Nat.Biotechnol.,18:896-898,2000.
Klee et al.,Bio-Technology,3(7):637-642,1985.
Lovato et al.,Insect Mol.Biol.,10(4):333-340,2001.
Lu et al.,Phytochemistry,53(8):941-946,2000.
Mourrain et al.,Cell,101:533,2000.
Myanohara et al.,Proc.Natl.Acad. Sci.USA,80(1):1-5,1983.
Odell et al.,Nature,313:810-812,1985.
Ogas et al.,Proc.Natl.Acad. Sci.USA,96(24):13839-13844,1999.
Omirulleh et al.,Plant Mol.Biol.,21(3):415-428,1993.
Orr-Weaver et al.,Proc.Natl.Acad. Sci.USA,80(14):4417-4421,1983.
PCT applies for WO 97/32016
PCT applies for WO 99/53050
PCT applies for WO 99/49029
PCT applies for WO 94/01550
PCT applies for WO 98/05770
Peragine et al,Genes Dev.,18(19):2368-2379,2004.
Pleau et al.,Entomol.Exp.Appl.105:1-11,2002.
Pontius et al.,In:UniGene:A unified view of the transcriptome.
NCBI handbook.National Center for Biotechnology Information,Bethesda,MD,2003.
Potrykus et al.,Mol.Gen.Genet.,199(2):169-177,1985.
Rajagopal et.al.,J.Biol.Chem.,277:46849-46851,2002.
Rine et al.,Proc.Natl.Acad.Sci.USA,80(22):6750-6754.1983.
Sambrook et al.,In:Molecular cloning:a laboratory manual,2 ndEd.,Cold Spring Harbor Laboratory Press,Cold Spring Harbor,NY,1989.
Schnepf et al.,Microbiol.Mol.Biol.Rev.,62(3):775-806,1998.
Smith et al.,Cell Dev.Biol.,33:75-79;1997.
Stinchcomb et al.,J.Mol.Biol.,158(2):157-190,1982.
Sutcliffe et al.,Proc.Natl.Acad. Sci.USA,75:3737-3741,1978.
Tabara et al.,Science,282(5388):430-431,1998.
Tabashnik,Appl.Environ.Microbiol.,58(10):3343-3346,1992.
Van Heeke and Schuster,J.Biol.Chem.,264(33):19475-19477,1989.
Vazquez et al,Mol.Cell,16(1):69-79,2004.
Yadav et al.,Molec.Biochem.Parasitol.,doi:10.1016/j.molbiopara.2006.03.013;in press,2006.
Zukowsky et al.,Proc.Natl.Acad.Sci.USA,80:1101-1105,1983.
Sequence table
<110>BAUM,JAMES A.
CAJACOB,CLAIRE A.
FELDMANN,PESCALE
HECK,GREGORY R.
NOOREN,IRENE
PLAETINCK,GEERT
MADDELEIN,WENDY
VAUGHN,TY T.
<120〉be used for method and composition at plant Genetic Control insect infestations
<130>MNDE:002US
<140〉the unknown
<141>2006-09-15
<150>60/718,034
<151>2005-09-16
<160>906
<170>PatentIn Ver.2.1
<210>1
<211>888
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(775)
<223〉n=a, c, g or t/u
<400>1
cccacgcgtc cggcggctga taaaagccta atgattggag ctgatgtagc agttgcttac 60
attgatggat tcagagggtt tgctacggac tacaatataa cagctttaac accatgtgta 120
aaagtattag gccaatataa aggagtatgc aaggatgaaa tggtaggagg acaggatagc 180
aaccaaatga atacggcagc gagggaaaat ggtattagca taataactta cagaagatcc 240
ttaatttcac ctgatcctgg agataaagag tttccagcag agggttccat atacgccgta 300
tggggggtag gaaaactaga cgaaatgaaa gaacctgctt ttcatgatct ctactcaaag 360
actgatataa aaatggagat gacaccgaaa gaacctcaga ataactgtgt ctcttttacg 420
agatcgaaac ctgaacccaa agaaccttgg aagaaaggtc aaatattcga taaaactata 480
aggatattta agtcttatat tggtccatca ggggccaaaa ggggatacca agccattacc 540
ggccactcat ccacagcttt agcatggtac ataaacggtt tcctcagccc tgagatatgg 600
ctacgacgag gtctttcata tgcatttaaa gtatatggag gaaacaatcc acacagtgct 660
gaatattatc atccattgat aataacagat gaaccccacg gaggttttga tagacttact 720
gacgatgctc agtctaaaat aagagtcttg gctggtgttg aatattctag aaggngaaga 780
cctagaccaa ctacatctgg tgtcctttgt ctatcagaac acaaagaagg aaaagacaga 840
agactcgatg atgacttcga aacgttcaaa aatttcacaa atcttgat 888
<210>2
<211>381
<212>DNA
<213>Diabrotica virgifera
<400>2
aactactcgt ccgcatgggg tacccgcgag gtcactgtcg cagccaaagc gcacgatgca 60
actcaagatg ctacaccaag tgcatcacct gctcctgcgc ccatttcaag ccaaccatta 120
tcattttttg gtaactccaa agataatgcg ggatccctcg agttttcttt cggacgactt 180
tttaaactag tgtgttgtac ctacgatagt agtggcgaag aaacggaagt actcacgatc 240
atacaaacct ccattcagac tatgcatgaa ttcttggccc agatggacaa tcataaacta 300
tgagctacag attcgatcct gaaaccaaga caaatcgcta gtcacactca gcattttgtg 360
ggtttacaag cttgaagatt t 381
<210>3
<211>859
<212>DNA
<213>Diabrotica virgifera
<400>3
tggcgtttta caatgtcaca agtaactgca gattttgaac aatatttgga gagatactta 60
cagggctcct cgaaacttgc aattttgcta gattatgatg gtaccttgac acctatcgtg 120
gctcatccag atctagcagt aattccccca gaagcaaaaa atgttcttga aatgttgtcg 180
caaatcccag aaatatttgt tgctattata tcgggtagag gggtaacgaa tgttaaaaaa 240
ttggttggta ttgactctat tacatatgct ggaaatcatg gactggaagt catctatcca 300
gacggttcca aatacgacca ccaacttcca tctaatttcg aggaccaagt ttaaagaact 360
aatagccaag ttacaagaaa aactgggaag agaaggtgct tggatagaaa acaaaggtgc 420
cagtctaact tttcatttta gagaagcacc agcacactta agggaagaaa tggaaagaga 480
agctaccaaa attatagagg cagcaaattt caaatcttca aaggcacata tggctgtaga 540
ggcaagacca aaagttgatt ggaataaggg aagcgtggcg ctcttgcttt tggagcagaa 600
atacagaaag aactggaaca aagaggccaa ggtgatattt gttggtgatg atacaactga 660
tgaagatgct atgaaggctt tgaaagggaa tgcggctctg tttagaattg ctaagccttg 720
tgctgataca aatgctgata aaattatttc gtctactgaa gatacactaa aaatactgaa 780
aatagctcaa aaacatttta agaaataata tatttcattg atgtatacat atatgtgatt 840
acaataatat atatgtaca 859
<210>4
<211>873
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(745)
<223〉n=a, c, g or t/u
<400>4
gagagagaca acagataaca gttgtgtagt aaactgttca agtgtaaaca gtaaaccatc 60
agtaaaccag tgacttattt aaacccctga caaacggaac ttattattgt tgctaaaatg 120
gcattttcga tatttagaca atgcgtgaaa aacgggataa cagtttctaa cagaagtgcc 180
cttatggagg gtgttttgaa gaacacgctg gcgaatgtga gttgcagatg tgttcccgtg 240
gcagctgtca attttaacaa ttctatagta gctagaagtt atagcaaaca tgccaaacac 300
acacacgcag aaaggaaata tcagtcagac tcagaatcag atagtgatct ggaatggatt 360
ggacacagag gtgaatcaga tttttggaga agaaaaatca gaaccttcca tggaatcctc 420
gacttaaata aggacggtgt tatttctttt gacgacttca aactgctcag tgatcggttt 480
ataaatctag gtcatttacg ttcagaacaa gtgaaaaaat tccaggatgt tcttaagaat 540
ctttgggaga agcagtttgg agaaatatcc ccttacaact tagtctcagt ggaaagatat 600
ttagaaaata tgcaccacgt gctcaacgat aaaagactgg tcaggaaggc acattccttt 660
ttgccttact tattcaaggc agttgataaa gacagatccg gagaaatctc cgtggaagaa 720
tttaaattat ttttcaatgt attgngcctc aaagaacaag acgccatctt agctttccgg 780
gcaatagact caaacggaaa tgaaaaaatt accccaaaaa gagttcgtga agcacgaaag 840
agatttcttt ttgactgaag accaagaaag gat 873
<210>5
<211>1384
<212>DNA
<213>Diabrotica virgifera
<400>5
ctattgtttc gtaaacttct ttcagttctt tagtaaattt gacagtatct acctcaatag 60
ataccttggc accatgcgag gctttgcctg ctggattcac agcaatacat ttgtagtctc 120
cagagtcaag ttcagaattg gtttctttaa tagttagttc aatgttttct ccatcgaagg 180
tgatctttac cctatcggat ggttccaaag gctcattatt tctaagccag tatacttcag 240
gagtaggatt gccaaccact ttggctttga gggtgagagg agacttttgt ggtacagttt 300
gctcttcaaa tcgtttgacg aacaatggtg gttcctggtt ttctgggaat tcttcaacag 360
ttaggtttgc acttgtttct attgtaccca tagaattggt agctcgaact gtatatgtag 420
cagtgtcatc tgtagatgtc ttgggaatag ttaaagtgta tgtgtttccg tcttttttga 480
attttggtct ggttaaaggt ttaccatcct tcaaccattc gatagtaggt tccgggtttc 540
caaatatagt agtggaaagt gtaactggtt ctcctttcct tacggtaata gattctagag 600
gtgataagac ctcaggtgct tctttctctg aagtaattac tttcagagta aatgttactg 660
aggcttctcc ttccctgttc ctggcgacta tcttaaactt gccttcctga gtcttcttga 720
ttttcttgat ttttagagtg gttttgtaag tatatagctc agaagttgac acaatactga 780
cgttttcagt tacacgtcta ccattacaga accattttat ttcaggttgt ggtactccta 840
ctaatgtact ttcaactacg acgtctgttt cttcaggaac acactgtggt agaggcttct 900
tagcgaatgt tggtggtata ccttctaata tatcagccaa ggaagatgtt cttgatagac 960
tcttccttga aatggaagtc aattcggatc catgagatga caacggacct tctactatga 1020
gttctgttgt actggaggcg aatcctgctg agtttttagc aacgcaagtg aaagttccag 1080
catcttctgg gaatacttcc cttataataa gggtagcgac gttatcttca tcgtagtaga 1140
tttggaaatc tttggaagtt ttgattatgt gagtttgtct gaaccacgta atttggggac 1200
gagggaatcc ttctactttg cattcgaatt ggacagtgta accatctggg gttataatag 1260
gcttcaactt cttgatgaat tttggcgcag aagctttatc tttggatttt ggtttttcaa 1320
atacaggaag tttgtcaatc ttctcgttca atttctgttg tacatactgc gcatactgtt 1380
cttc 1384
<210>6
<211>735
<212>DNA
<213>Diabrotica virgifera
<400>6
ggaaaaggaa gtgggggtga ataggccaaa caatgacaat ggttttagct attaaagatg 60
acgacaacaa gtttgatatg ttggtaagga actgtatggc tcacgatgga aaaagagctc 120
ccatacagtt agtcgaccaa agaggttgtg tcacaagacc aaaattgatg tccagattta 180
ctaagattaa aaactttggc gcaagcgctt cagtgttatc atatgcccac ttccaggcat 240
ttaaattccc tgactccatg gaagttcact tccagtgcac catccaaatc tgcagatatc 300
aatgtccaga tcagtgttca gattcttcag gacaacatct ccacggcttg cttgatttgg 360
tgcatggtcc acctgatact ggttatggtg ctcctccacc gctacctatc gaagcatatt 420
tacatcctgg gcgaccaagg gatgaaagga gatcaaagag agctctcgct gtcgacccgg 480
aaaaggaagt gggggtgaat aggattatta gggttgtatc tacaggagat ttgacattta 540
cacttgacga aaacagcaat agcacaactc cacccactat ggtctttccc gccaaggagg 600
aaattaacaa cggaggatta atatgtatga ctactccagg ttttgcagca accttagtag 660
ttttattagc tatattaata gtatcttgtc ttatgtcagc tttcctttgt gtcaaactaa 720
gaccatttgc tgaaa 735
<210>7
<211>888
<212>DNA
<213>Diabrotica virgifera
<400>7
gaacagcaaa tttttgaagt gtcatactgt ttttatttag caaaatagtt aattgggaac 60
aaagatttta ttagaataat ataccgaaaa tgccgagtca agaattaaca actaataaag 120
taatagtcca ccctttggtt cttctaagtg tggtggacca ttttaatcgc atgggcaaaa 180
tcggcaatca aaagcgtgtt gttggtgttc ttcttggctg ttggcgtgct aaaggagtct 240
tagatgtttc taacagtttt gcagttcctt ttgacgaaga tgacaaggat aagtctgtgt 300
ggttcttgga ccatgattac ttagaaaaca tgtatggaat gttcaaaaaa gttaatgcca 360
gggaacgagt agtaggttgg taccacaccg gccccaaact tcatcaaaat gatattgcca 420
ttaatgagtt aatcagaagg tattgtccaa attccgttct agttatcata gacgctaaac 480
caaaagattt aggtttacca actgaagctt atcaagctgt agaagaagta cacgatgacg 540
gttcacctac atctaaaaca tttgagcatg ttcctagtga aatcggagct gaggaagctg 600
aagaagttgg tgttgaacac ttattgagag atattaaaga cacaactgtt ggtactttgt 660
cacagagaat aacgaatcag cttttagggt taaaaggtct ccattcacag ttacgtgata 720
ttagggacta tttggtacaa gtgtgtggta accagcttcc aatcaatcac caaatcatct 780
accaattaca agacatattt aatcttttgc ccgatataaa tcaggatgca tttaatacat 840
cgttttacgt gaaaaataac gatcaaatgt tagtcgttta tctagcag 888
<210>8
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>8
ccgaaaatgc cgagtcaaga attaacaac 29
<210>9
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>9
gcatcctgat ttatatcggg caaaag 26
<210>10
<211>746
<212>DNA
<213>Diabrotica virgifera
<400>10
ccgaaaatgc cgagtcaaga attaacaact aataaagtaa tagtccaccc tttggttctt 60
ctaagtgtgg tggaccattt taatcgcatg ggcaaaatcg gcaatcaaaa gcgtgttgtt 120
ggtgttcttc ttggctgttg gcgtgctaaa ggagtcttag atgtttctaa cagttttgca 180
gttccttttg acgaagatga caaggataag tctgtgtggt tcttggacca tgattactta 240
gaaaacatgt atggaatgtt caaaaaagtt aatgccaggg aacgagtagt aggttggtac 300
cacaccggcc ccaaacttca tcaaaatgat attgccatta atgagttaat cagaaggtat 360
tgtccaaatt ccgttctagt tatcatagac gctaaaccaa aagatttagg tttaccaact 420
gaagcttatc aagctgtaga agaagtacac gatgacggtt cacctacatc taaaacattt 480
gagcatgttc ctagtgaaat cggagctgag gaagctgaag aagttggtgt tgaacactta 540
ttgagagata ttaaagacac aactgttggt actttgtcac agagaataac gaatcagctt 600
ttagggttaa aaggtctcca ttcacagtta cgtgatatta gggactattt ggtacaagtg 660
tgtggtaacc agcttccaat caatcaccaa atcatctacc aattacaaga catatttaat 720
cttttgcccg atataaatca ggatgc 746
<210>11
<211>1123
<212>DNA
<213>Diabrotica virgifera
<400>11
aacaataaat tttattgcga tgatttctca caagaaaaaa taatttttta tatacatata 60
aacataaata tgaatatatt ttgagaaaaa aataaggtag tataactgaa acctaataat 120
tttctaagga ttttaaaaaa tatctgcttg acaaggatac aattagggta acaacaaact 180
taactgttta aaatacttca aaaaaaggaa tggtttatta tatatatcgt atatacatag 240
tagtttaaaa ggtttttgaa gatctgtcta agcaaccaac aatgttttac aatactatat 300
aaaatacagg caatacacag tatccaaaaa atacttaatc agtgaatttt ctgttgacgt 360
tgcgtccgaa cagagcatta cggatctggg gaatcaattg ttgtgagatg agctcaagac 420
gggcttccag agtattgttg attttgatct tgtttctcaa ggccaacagt tcgattcctc 480
cggtggtttc ttgagaaagg tggctctcgt cgtcgatttt tagatttacg tctttaccgg 540
ttatgtcctt gtacttttgg gagacgttag gcatgataga ttttaccaat tctctgtcct 600
gagggcgtac tctaatggtg atgtcctttt cgaagagctg atagagccct tggaggatga 660
gactttccag gatttgtgta tatttgcctg aatctctggt tacctcacca agacgtttgc 720
gagcatcttc caaaacggca cgtacatggt cttcccttac tttcaatacc ttcaatcttg 780
cctggttcaa catgtttgat gattggattt ttttctggag ttctacttgc ttctcttttt 840
tctcgtagta ctccataatc ttgagcctct gttgttggac cagacggccc ttttcgatgt 900
tgaattcttc ttcagccttt gcatcaattt cctcggcctt ttcattggct tcttgctcaa 960
tgaaagccat catgtgcttg atctgctttt gtacatctgc gtcgctgaga gccattttga 1020
gcctttttct ttcgacttag aggaaattaa agggatttaa acaatgtttt tcccgactac 1080
gcccagcaac tttctgaaca atttgctcaa taaaaatcgg acg 1123
<210>12
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>12
gacgttgcgt ccgaacagag cattac 26
<210>13
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>13
gttcagaaag ttgctgggcg tagtcg 26
<210>14
<211>743
<212>DNA
<213>Diabrotica virgifera
<400>14
gacgttgcgt ccgacagagc attacggatc tggggaatca attgttgtga gatgagctca 60
agacgggctt ccagagtatt gttgattttg atcttgtttc tcaaggccaa cagttcgatt 120
cctccggtgg tttcttgaga aaggtggctc tcgtcgtcga tttttagatt tacgtcttta 180
ccggttatgt ccttgtactt ttgggagacg ttaggcatga tagattttac caattctctg 240
tcctgagggc gtactctaat ggtgatgtcc ttttcgaaga gctgatagag cccttggagg 300
atgagacttt ccaggatttg tgtatatttg cctgaatctc tggttacctc accaagacgt 360
ttgcgagcat cttccaaaac ggcacgtaca tggtcttccc ttactttcaa taccttcaat 420
cttgcctggt tcaacatgtt tgatgattgg atttttttct ggagttctac ttgcttctct 480
tttttctcgt agtactccat aatcttgagc ctctgttgtt ggaccagacg gcccttttcg 540
atgttgaatt cttcttcagc ctttgcatca atttcctcgg ccttttcatt ggcttcttgc 600
tcaatgaaag ccatcatgtg cttgatctgc ttttgtacat ctgcgtcgct gagagccatt 660
ttgagccttt ttctttcgac ttagaggaaa ttaaagggat ttaaacaatg tttttcccga 720
ctacgcccag caactttctg aac 743
<210>15
<211>2325
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(107)..(185)
<223〉n=a, c, g or t/u
<400>15
atcgtcatcg tccaaatcca tagcaacatt gggattcaaa gccctctctc tttctctcct 60
aatttcggtt tcgatgctct gcctgatggc cagtttgcaa gctctcntgg cagatttcag 120
tcaaatcnng gcacccagaa aatcccatga gttactttag caatgtatac aagatctacg 180
tcttntagct acaggcgatt tcctcaagtt ggctttgaag atggcttccc tagatttctc 240
gtcgggtaga gggatgtaga tcaactgatc gagacgacct ggacgcaata ttgcaggatc 300
gatgatatct ggtctgtttg tagcaccgat aataaacacg ttctttttgg ctcccatacc 360
gtccatttct gttagaattt gattaataac tctgtcggct gcaccaccgg catcacctac 420
atttccacca cgcgatttgg caattgaatc taattcgtca aagaatagaa cacaaggtgc 480
cgcagatcga gccttgtcga agatatctct gacatttgct tctgattcac caaaccacat 540
agtaagcaac tctggtcctt taactgagat aaagttggct tggcattcat tcgcaatagc 600
cttagctaat aacgttttac cgcaaccagg cggcccatag aacaacactc ctctggacgg 660
ttgcataccg aacttaagga acttatctgg atgttcgact gggtattgca ccaattcttg 720
caattctttc ttgacattag ccaagccacc gatatcgtcc caagtgacgt ttggtacttc 780
tactatggtc tcacgtaaag cacttgggct gctcttcgtc atggcgtaac ggaagttctc 840
catggtaact gccagtgagt ttaggacttc tgcgtcaatt tggtcgtctt cgaggtcgat 900
gaggtccatt ttttctctga tttgttgaag ggctgcttcc gaacacaatg aagctaaatc 960
agcacctacg tgaccatgag tttccgcagc gatctgttcc aagtcgacat catcggccaa 1020
tttcatgttc ttggtgtgaa tacgtaaaac ttcaagtctg ccagttgcat caggtattcc 1080
gatatcgatt tccctgtcga atcttccgaa tctacgtaaa gctggatcga ttgagtttgg 1140
tctgttagta gcggccataa cgataacgtg ggaactcttc ttcataccgt ccatcaaagt 1200
tagaagttgg gatactatac ggcgttccac ctctccgtgt gttttctctc tcttgggagc 1260
gatggcatcc aattcatcaa tgaaaataat agctggggaa ttcttgtcgg cttcctcgaa 1320
agctttacga agattgcttt cggattcacc ggccaatttg ctcataatct caggaccgtt 1380
aatcaagaag aagaacgctc cagtttcgtt agctacggca cgtgcaatga gtgtcttacc 1440
agtacccggt ggaccgtaaa gtaagatacc tcttggtggt ttaactccaa tagccttgaa 1500
aagactagga tgtctcagtg gtaactccac catttctttg atttgagcga gctgttttct 1560
acaacctccg atgtcgtcgt atccaactgc gttaagagct tcttcctcct cttcgcgctt 1620
gattggatct ccatcacaat gaatgacggt atctggagcc actatacagt acggagcggg 1680
atcggtctcg acgactttga attcaacagc tctcattcct ccacgtacaa cgaatacgtc 1740
atctttgtgt attggtcgat aggcctccag gaagtagggt ttcaggtata cttcgaagag 1800
atttcctgtg agtccttcca ctgtatcatc tatgggaagt acatgtattc tcttgccata 1860
ttttacatca gggcaagctt ggatagaaac tacatctgaa agcctaactc ttaaattatt 1920
tctaacattt ctattcatac gaattttttc atcgctacat gtatcatcag ataatactat 1980
acaaacagtt tctttccttc gcttgccctt cagtaggact gtgtctcctc tgaaaagttg 2040
tagttcatcc atttttgctt gtgacaaagc aaccacggag ttatcatcgt taactgcttc 2100
ttctaccaaa agtctatttg gacgatcttt cttacggaga attgcggtgg ccaaatcctc 2160
tggatttttg ttttcggcca ttatttagta atgaatatgt acttaatgta gaaacttttg 2220
aaaaatcagt tcacaataga aattatctct tttatatgat ttcagttttt actcaagcac 2280
aaagatgacg atcgttattc tgacacaaaa tgacggacgc gtggg 2325
<210>16
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>16
tcgtcatcgt ccaaatccat agcaac 26
<210>17
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>17
ggaaactcat ggtcacgtag gtgctg 26
<210>18
<211>978
<212>DNA
<213>Diabrotica virgifera
<400>18
tcgtcatcgt ccaaatccat agcaacattg ggattcaaag ccctctctct ttctctccta 60
atttcggttt cgatgctctg cctgatggcc agtttgcaag ctctctggca gatttcagtc 120
aaatcggcac cagaaaatcc atgagttact ttagcaatgt atacaagatc tacgtcttta 180
gctacaggcg atttcctcaa gttggctttg aagatggctt ccctagattt ctcgtcgggt 240
agagggatgt agatcaactg atcgagacga cctggacgca atattgcagg atcgatgata 300
tctggtctgt ttgtagcacc gataataaac acgttctttt tggctcccat accgtccatt 360
tctgttagaa tttgattaat aactctgtcg gctgcaccac cggcatcacc tacatttcca 420
ccacgcgatt tggcaattga atctaattcg tcaaagaata gaacacaagg tgccgcagat 480
cgagtcttgt cgaagatatc tctgacattt gcttctgatt caccaaacca catagtaagc 540
aactctggtc ctttaactga gataaagttg gcttggcatt cattcgcaat agccttagct 600
aataacgttt taccgcaacc aggcggccca tagaacaaca ctcctctgga cggttgcata 660
ccgaacttaa ggaacttatc tggatgttcg actgggtatt gcaccaattc ttgcaattct 720
ttcttgacat tagccaagcc accgatatcg tcccaagtga catttggtac ttctactatg 780
gtctcacgta aagcacttgg gctgctcttc gtcatggcgt aacggaagtt ctccatggta 840
actgccagtg agtttaggac ttctgcgtca atttggtcgt cttcgaggtc gatgaggtcc 900
attttttctc tgatttgttg aagggctgct tccgaacaca gtgaagctaa atcagcacct 960
acgtgaccat gagtttcc 978
<210>19
<211>637
<212>DNA
<213>Diabrotica virgifera
<400>19
cccacgcgtc cgcccacgcg tccgcggact aaaatgaagc aaattgtaac aaaccaaacg 60
gtaaaaattc ctgagggaat tacagtaacc actaagtcaa gggtagtaac tgtaaaagga 120
ccccgaggta atctgaagag atccttcaaa catcttaccc tggacattcg aatgatcaac 180
cccaggttac tgaaagtaga gaaatggttc ggtaccaaga aggaattagc tgctgtcaga 240
acagtatgct ctcatgttga aaacatgtta aagggtgtta caaaaggata ccaatacaag 300
atgagagcag catatgctca ctttcccatt aactgtgtca ccactgaagg aaacacagtt 360
atcgaaatta gaaatttctt gggagaaaaa tacatcagaa gagtaaagat ggccccaggt 420
gttacagtag taaactccac caaacaaaag gatgaactta tcattgaagg aaactcattg 480
gaggatgttt caaagtcagc tgcccttatt caacaatcta caacagttaa aaataaggat 540
atccgtaaat tcttagatgg gctttatgta tctgaaaaaa caactgttgt acaagaagaa 600
taacttgtat ttttgaaata aatttaagtt tatattt 637
<210>20
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>20
ggaattacag taaccactaa gtcaagggta g 31
<210>21
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>21
cagatacata aagcccatct aagaatttac g 31
<210>22
<211>499
<212>DNA
<213>Diabrotica virgifera
<400>22
ggaattacag taaccactaa gtcaagggta gtaactgtaa aaggaccccg aggtaatctg 60
aagagatcct tcaaacatct taccctggac attcgaatga tcaaccccag gttactgaaa 120
gtagagaaat ggttcggtac caagaaggaa ttagctgctg tcagaacagt atgctctcat 180
gttgaaaaca tgttaaaggg tgttacaaaa ggataccaat acaagatgag agcagcatat 240
gctcactttc ccattaactg tgtcaccact gaaggaaaca cagttatcga aattagaaat 300
ttcttgggag aaaaatacat cagaagagta aagatggccc caggtgttac agtagtaaac 360
tccaccaaac aaaaggatga acttatcatt gaaggaaact cattggagga tgtttcaaag 420
tcagctgccc ttattcaaca atctacaaca gttaaaaata aggatatccg taaattctta 480
gatgggcttt atgtatctg 499
<210>23
<211>678
<212>DNA
<213>Diabrotica virgifera
<400>23
aaattctttt acggaagaca cgttgagagg tgcatttgca ggatgagttc cttaaaactt 60
cagaagaggc tagcagcctc tgttatgcga tgtggtaaaa agaaagtatg gttggaccct 120
aatgaaatca acgaaattgc caacactaac tcaagacaga acatccgtaa gttgataaag 180
gatggtctta ttattaagaa gcccgtagct gtacattccc gtgcccgtgt tcgcaaaaac 240
actgaagccc gcaggaaagg aaggcactgc ggttttggta aaaggaaggg tactgctaat 300
gcccgtaccc cacaaaagga attatggatt caacgcatga gagttttgcg tcgtctcctt 360
aaaaaataca gggaagctaa aaaaattgac agacatctat accactcact ctacatgaag 420
gccaagggta acgtattcaa gaacaagcgt gtccttatgg aatacatcca caagaagaag 480
gcagagaaag cccgtgccaa gatgttggca gaccaggcca atgccagaag gatgaaggta 540
aaacaggcta gagaaagacg tgaggaacgt atcgccacaa agaaacaaga agttttgcag 600
aactacatga gggaggatga agctgcggcc actaagaaat aagttaattg ttttataaga 660
tgactatatt aaaaattt 678
<210>24
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>24
ctagcagcct ctgttatgcg atgtgg 26
<210>25
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>25
gcttcatcct ccctcatgta gttctgc 27
<210>26
<211>554
<212>DNA
<213>Diabrotica virgifera
<400>26
ctagcagcct ctgttatgcg atgtggtaaa aagaaagtat ggttggaccc taatgaaatc 60
aacgaaattg ccaacactaa ctcaagacag aacatccgta agttgataaa ggatggtctt 120
attattaaga agcccgtagc tgtacattcc cgtgcccgtg ttcgcaaaaa cactgaagcc 180
cgcaggaaag gaaggcactg cggttttggt aaaaggaagg gtactgctaa tgcccgtacc 240
ccacaaaagg aattatggat tcaacgcatg agagttttgc gtcgtctcct taaaaaatac 300
agggaagcta aaaaaattga cagacatcta taccactcac tctacatgaa ggccaagggt 360
aacgtattca agaacaagcg tgtccttatg gaatacatcc acaagaagaa ggcagagaaa 420
gcccgtgcca agatgttggc agaccaggcc aatgccagaa ggatgaaggt aaaacaggct 480
agagaaagac gtgaggaacg tatcgccaca aagaaacaag aagttttgca gaactacatg 540
agggaggatg aagc 554
<210>27
<211>927
<212>DNA
<213>Diabrotica virgifera
<400>27
ctttacgcgt ccgatatttt tcatagattt agttttaaat actgacaatt aagatgccgg 60
accatttagg agatgatatg cgaaaaataa aagaacagaa agaggagccc gaaaaggaaa 120
ttaaagccct ggatgaaggt gatatagcac ttcttaaaac ctatggacaa gggcaataca 180
caaagacaat taaaacatgt gaagaagata tccaaacgat aatcaaaaga gtaaatgaat 240
taactggtat aaaagaatct gatactggtt tagctccacc agctttatgg gatttggcag 300
ctgacaaaca aaccttacaa aatgagcaac ccttacaagt ggcccgttgt acgaaaatta 360
tcaacgctga tacagatgat cccaaataca ttataaacgt taaacagttt gccaaattcg 420
tagtagattt ggcagactct gtggccccta cagacataga agaaggcatg agagttggag 480
tcgaccgaaa taagtatcaa attcatattc ctctacctcc aaaaattgat cccactgtga 540
ctatgatgca agttgaggag aagcctgatg ttacatacag tgatgttggt ggctgcaagg 600
aacaaattga aaagttgaga gaagttgttg aaacaccttt actccatcct gaaaaatttg 660
taaaacttgg tattgaacca ccaaaaggcg ttctcctttt tggcccccct ggaactggta 720
aaactctttg tgctagagca gtagccaata gaacagatgc ctgctttatt cgtgtaattg 780
gttctgaact ggttcagaag tacgtaggag agggagcaag aatggttaga gaacttttcg 840
aaatggctag gtctaagaag gcctgcttga tattctttga ttgaattgat gccattggct 900
ggagccagat ttgatgatgg cgctgga 927
<210>28
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>28
gaacagaaag aggagcccga aaagg 25
<210>29
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>29
gcatcaattc aatcaaagaa tatcaagcag g 31
<210>30
<211>800
<212>DNA
<213>Diabrotica virgifera
<400>30
gaacagaaag aggagcccga aaaggaaatt aaagccctgg atgaaggtga tatagcactt 60
cttaaaacct atggacaagg gcaatacaca aagacaatta aaacatgtga agaagatatc 120
caaacgataa tcaaaagagt aaatgaatta actggtataa aagaatctga tactggttta 180
gctccaccag ctttatggga tttggcagct gacaaacaaa ccttacaaaa tgagcaaccc 240
ttacaagtgg cccgttgtac gaaaattatc aacgctgata cagatgatcc caaatacatt 300
ataaacgtta aacagtttgc caaattcgta gtagatttgg cagactctgt ggcccctaca 360
gacatagaag aaggcatgag agttggagtc gaccgaaata agtatcaaat tcatattcct 420
ctacctccaa aaattgatcc cactgtgact atgatgcaag ttgaggagaa gcctgatgtt 480
acatacagtg atgttggtgg ctgcaaggaa caaattgaaa agttgagaga agttgttgaa 540
acacctttac tccatcctga aaaatttgta aaacttggta ttgaaccacc aaaaggcgtt 600
ctcctttttg gcccccctgg aactggtaaa actctttgtg ctagagcagt agccaataga 660
acagatgcct gctttattcg tgtaattggt tctgaactgg ttcagaagta cgtaggagag 720
ggagcaagaa tggttagaga acttttcgaa atggctaggt ctaagaaggc ctgcttgata 780
ttctttgatt gaattgatgc 800
<210>31
<211>831
<212>DNA
<213>Diabrotica virgifera
<400>31
attgaaaata atgtaatcaa ccattacatt taatgtgttt tggctgctaa cctcttgtct 60
ctctcttcag caatagacaa tttgactccc tttcctcttg ggagggaaac gaaggcctta 120
gctcccttac caataatgaa aacgttattt aacctagtag caaatacatg accattagca 180
tctttaacat gcacaatatc aaaggatcca ggatgacgtt ccctattgat aactgtacct 240
acacgaccca aatttcttcc tccagtgatc atacataagt ttccagattc gaacttaatg 300
tagtctagaa ttttagatgt ggcaatttcc aattggatgg tgtcattgac tttgatgttt 360
gggtcagggt atctgatggt acggccatca tgtgtcacca agaatggaat tccttttggt 420
ccagtttgga ctcttcgtac tttgcagagt ttgtattttg cttcttcagc ggtaatacgg 480
tgaatggcaa atctaccttt aacatcatag ataagacgga agaattcacc agtcttctca 540
atagtaataa catccataaa tcctgcagga tagttactgt ctgttctgac ttttccatcg 600
actttaatta atctttgcat aacaattttt gtgacttcac tgttggtgag ggcatacttt 660
agtctgtttc ttaagaaaat tactaatggt aaagattctc tcaacttgtg aggaccggtg 720
gatggacggg gggcaaatac acctcccaat ttgtccaaca tccatgcttt gggtgcgttt 780
aaacgcttca aatgcttttt aggtcctcga gccatcttga ctttaaaaat a 831
<210>32
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>32
gtgttttggc tgctaacctc ttgtctctc 29
<210>33
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>33
gcatggatgt tggacaaatt gggag 25
<210>34
<211>733
<212>DNA
<213>Diabrotica virgifera
<400>34
gtgttttggc tgctaacctc ttgtctctct cttcagcaat agacaatttg actccctttc 60
ctcttgggag ggaaacgaag gccttagctc ccttaccaat aatgaaaacg ttatttaacc 120
tagtagcaaa tacatgacca ttagcatctt taacatgcac aatatcaaag gatccaggat 180
gacgttccct attgataact gtacctacac gacccaaatt tcttcctcca gtgatcatac 240
ataagtttcc agattcgaac ttaatgtagt ctagaatttt agatgtggca atttccaatt 300
ggatggtgtc attgactttg atgtttgggt cagggtatct gatggtacgg ccatcatgtg 360
tcaccaagaa tggaattcct tttggtccag tttggactct tcgtactttg cagagtttgt 420
attttgcttc ttcagcggta atacggtgaa tggcaaatct acctttaaca tcatagataa 480
gacggaagaa ttcaccagtc ttctcaatag taataacatc cataaatcct gcaggatagt 540
tactgtctgt tctgactttt ccatcgactt taattaatct ttgcataaca atttttgtga 600
cttcactgtt ggtgagggca tactttagtc tgtttcttaa gaaaattact aatggtaaag 660
attctctcaa cttgtgagga ccggtggatg gacggggggc aaatacacct cccaatttgt 720
ccaacatcca tgc 733
<210>35
<211>3173
<212>DNA
<213>Diabrotica virgifera
<400>35
gtcaaccacc tcaacaaagt taaggctaag ttggaacaaa ccttggacga actcgaagac 60
tctttggaac gcgaaaagaa actccgtggt gacgtagaaa aatctaaacg taaggttgaa 120
ggcgacttga aactcaccca agaggctgta gctgacttgg aacgcaacaa gaaggaactc 180
gaacaaacca tccaacgcaa agacaaggaa atctcatcac tcactgccaa actcgaagac 240
gaacaatccg ttgttggtaa acaacaaaaa caagttaagg aactccaggc tcgcattgag 300
gaactcgaag aggaagttga agctgaacgt caagcccgtg ctaaagctga gaaacaacgc 360
gctgatttgg cccgcgaatt ggaagaactc ggcgaacgtc ttgaagaagc cggtggtgct 420
acctcagccc aaatcgaact caacaagaaa cgtgaagccg aactcgccaa actccgtcgt 480
gacctcgaag aatccaacat ccaacatgaa ggaactcttg ctaacctccg caagaagcac 540
aacgacgctg tttctgaaat gggtgaacaa attgaccaac tcaacaaact caaagccaag 600
gctgagaaag aaaagtctca atacttcggt gaactcaatg acctccgtgc ttcagtcgac 660
cacttagcca acgaaaaggc cgctatagaa aaggtatcca aacaattggg acaacaactc 720
aacgacgtcc aaggcaaact tgacgaaacc aaccgcactc ttaacgactt cgatgccgcc 780
aagaagaagt tgtctattga aaactccgac ctcctcagac aactcgagga agccgaatct 840
caagtatctc aactcagcaa gatcaaggta tcccttacca ctcaattgga agataccaag 900
agattggccg atgaagagag cagagaacgc gctaccctcc tcggcaaatt cagaaacttg 960
gaacacgact tggacaacat ccgtgaacaa gttgaagaag aagccgaagc caaggctgat 1020
atccaaagac aactcagcaa agccaacgct gaatctcaac tctggcgcca gaaatacgaa 1080
tctgaaggag ttgctcgctc tgaagaactc gaagaagcta agaggaaact ccaagctcgt 1140
cttgctgagg ctgaagaaac catcgaatct ctcaaccaga aggttgtagc tcttgaaaag 1200
accaaacaac gtttggccac tgaagtcgaa gacttgcaac tcgaagtcga ccgtgctaac 1260
gccattgcca atgctgctga gaagaaacaa aaggccttcg acaaaatcat tggagaatgg 1320
aaactcaagg ttgatgactt ggctgctgaa ctcgatgcca gtcagaaaga atgcagaaac 1380
tactccaccg aattgttcag acttaagggc gcctacgaag aaggacaaga acaacttgaa 1440
gctgtccgcc gtgaaaacaa gaacctcgct gatgaagtta aggatctcct tgaccaaatt 1500
ggagaaggtg gccgcaacat ccacgaaatc gaaaaggccc gcaagcgctt ggaagctgaa 1560
aaagatgaac tccaagctgc tcttgaagaa gctgaagctg ctcttgaaca agaagaaaac 1620
aaagtacttc gtagccaact tgaactttct caagtccgtc aagaaatcga cagacgtatc 1680
caagagaaag aagaagaatt cgaaaacacc cgcaagaatc accaacgtgc cctcgactcc 1740
atgcaagcct cccttgaagc tgaagccaaa ggtaaggctg aggcccttcg catgaagaag 1800
aagttggaag ctgatatcaa tgaattggaa atcgctttgg accacgctaa caaggccaac 1860
gctgaagccc aaaagaccat caaacgctac caacaacaac ttaaggacac ccaaaccgcc 1920
cttgaagaag aacaaagagc tcgcgatgaa gcccgtgaac aacttggaat ttcagaacgt 1980
cgtgctaacg ctcttcaaaa tgaacttgaa gaatctcgca ctcttctcga acaagccgac 2040
cgtgctcgtc gccaagctga acaagaattg ggagatgctc acgaacaatt gaacgatctt 2100
ggagcccaaa acgcttcctt gtctgccgcc aagaggaaat tggaaaccga attgcaaacc 2160
ctccactcag accttgacga acttctcaac gaagccaaga actccgaaga gaaggccaag 2220
aaggctatgg tagatgccgc tcgtctcgct gatgaactcc gcgctgaaca agaccatgcc 2280
caaacacaag agaaactccg taaagctctc gaagctcaaa tcaaggacct ccaagtacgc 2340
ttggacgaag ctgaagccaa tgcccttaaa ggaggaaaga aggctattgc caaattggaa 2400
caacgtgtta gagaattaga aaatgaatta gacggtgaac aaaggcggca cgcggatgcc 2460
caaaagaact tgagaaagtc tgaacgtcgt atcaaggaac ttagcttcca agctgaagaa 2520
gaccgcaaga accacgagag gatgcaagac ctcgtcgaca aactccaaca aaagatcaag 2580
acctacaaga gacagataga agaagccgaa gaaatcgccg ctttgaactt ggccaaattc 2640
cgtaaagccc aacaagagct cgaagaagcc gaagaaagag ccgacctcgc cgaacaggcc 2700
atcgccaaat tccgtgccaa gggacgttca ggatctgcag ctagaggagc cagtccagcg 2760
ccccaaagac agcgccccac cttgggaatg ggagacgctc taggtggtcc attcccccca 2820
aggttcgact tagcacctga tttcgagtga acatgcgcgc tgtgttagaa tcttaataaa 2880
caaacgaact gtttaggtcg catcaaaacc aactctatgc gattttactt ttattaattt 2940
tttattttcg tttttgaata ttagagttgt atgattccgt aaatgttcga gaaaaaggag 3000
aacgaaggga gtattcagag acacgtattt accaccaaga cagccctttg atctcttcat 3060
ttctcaaaat gccaattatt ttgttatgaa aatatgtagg ttgtataatg atattgtatg 3120
tatgataatg ttgtatgata taaggcacca ataaacataa aagttatatt gtt 3173
<210>36
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>36
ggtttggatg ctgaattata ccgtctaggt c 31
<210>37
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>37
ggtgatcctt ggtggctttg tcttg 25
<210>38
<211>672
<212>DNA
<213>Diabrotica virgifera
<400>38
ggtttggatg ctgaattata cgtctaggtc acactaaggt cttcttccgt gctggtgtct 60
tgggtcagat ggaagaactt cgtgacgacc gtcttggcaa gatcgtcacc tggatgcaat 120
cttgggtccg tggttatctc tcaagaaagg aattcaagaa actgcaagaa caacgtttgg 180
ccctccaagt gtgccaacgc aacttgcgca aatacctcaa attgcgcaca tggccatggt 240
acaaattgtg gcagaaggtc agacctctcc tcaacgtcac ccgtatcgag gatgagattg 300
ccaaacttga agagaaagcc caaaaagccc aagaagcctt cgagcgtgaa gaaaaggcca 360
agaaggaatt agaagctctc tatgccaagc tcttagctga gaagaccgag ttgttatcta 420
acttggaagg agaaaaggga tccctttccg aaactcaaga aagggccaac aaactccaag 480
cccaaaagaa cgacctcgag tctcaacttt ctgaaaccca agatcgtttg agccaagagg 540
aagatgctcg caaccagttg atgcaacaaa agaagaaact cgaacaagaa atgtccggtt 600
tcaagaaaga catcgaagat ttggaactca acctccaaaa gtctgaacaa gacaaagcca 660
ccaaggatca cc 672
<210>39
<211>1222
<212>DNA
<213>Diabrotica virgifera
<400>39
tgagctgttg aactcagtga ctagaatcaa aaagtagttg gagcaagcgt tctatcgcac 60
cctttcaacc gaacggcttg gtcgagtact tttctgtacc tacgaaccca gaagaaaatt 120
cagtttgtgt gaaaagttca ataagttaca agcattatag tttaaagcgt taggttgatt 180
aataatattt aagtatattt ttcttcctta tctatacaca cacgacatta agattaaagt 240
ataaagaaca actatatcgt atctttttct ttttgttttt tataaaatat ttagtaacag 300
gaaagcacaa aacatgcata tgagctcttt agatttatac agtgaaatgg acttaaagct 360
ataaactgcg ctaccaactc gaccacctga tttgctatgt ggtgatttta aaagccgtga 420
agtcgataca taggagtaaa tatagagaag ccgcctctac aaacaaaaca ccgcctccca 480
aacggacaga cgtctcacag actcctgtcg atttggacgg cgatgtttca gcgacaggaa 540
acaaaaatgt cttgctgttc taagattttt ttgtaaatcg cgtatttcta aaagaccagg 600
tgtcgagttg aagtagggtg gtggtgacgc ctagacgtca acgaccattt tcttgtggat 660
atcggtgttg ccgaccacgt tgcaaaattc ctcgaaggaa attttgccgt cttcatcttt 720
gtcggcgaac aggatggtct tgtcgacgat ctgctggagc tgagtgtcct tcagattgtt 780
tccgaccatc attttgagaa cctgaaatag ttctccatta gagatgtatc cgtcattatc 840
catatcgtag atccggaaag caaatctaag cttggagagc ttgtcaccct ttacgctgaa 900
ttgagacaca ccctgaatga attctttgaa atcgacttct ccgttaccat cggcatcgaa 960
gatgtcaatc acacgttgaa cgagcggatt ctgctgcagc tccggcagag acatgaactc 1020
gtcgatgctg agggcccccg agttgtccag atctaatttt ctgaatcttt taccgagacg 1080
tcgaatttcg tcggcgtcaa agttagagca tagctccatg ggcagagagc tctcgttacc 1140
catggtctgc tccaagtact ctaacttcta attgatttat gattcttttt aatgatcgac 1200
aaactgagga taaataattt ac 1222
<210>40
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>40
cgtctcacag actcctgtcg atttgg 26
<210>41
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>41
caattagaag ttagagtact tggagcagac catg 34
<210>42
<211>684
<212>DNA
<213>Diabrotica virgifera
<400>42
cgtctcacag actcctgtcg atttggacgg cgatgtttca gcgacaggaa acaaaaatgt 60
cttgctgttc taagattttt ttgtaaatcg cgtatttcta aaagaccagg tgtcgagttg 120
aagtagggtg gtggtgacgc ctagacgtca acgaccattt tcttgtggat atcggtgttg 180
ccgaccacgt tgcaaaattc ctcgaaggaa attttgccgt cttcatcttt gtcggcgaac 240
aggatggtct tgtcgacgat ctgctggagc tgagtgtcct tcagattgtt tccgaccatc 300
attttgagaa cctgaaatag ttctccatta gagatgtatc cgtcattatc catatcgtag 360
atccggaaag caaatctaag cttggagagc ttgtcaccct ttacgctgaa ttgagacaca 420
ccctgaatga attctttgaa atcgacttct ccgttaccat cggcatcgaa gatgtcaatc 480
acacgttgaa cgagcggatt ctgctgcagc tccggcagag acatgaactc gtcgatgctg 540
agggcccccg agttgtccag atctaatttt ctgaatcttt taccgagacg tcgaatttcg 600
tcggcgtcaa agttagagca tagctccatg ggcagagagc tctcgttacc catggtctgc 660
tccaagtact ctaacttcta attg 684
<210>43
<211>864
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(842)
<223〉n=a, c, g or t/u
<400>43
gtagcaagga ctattgccag atcattttgt ccagagctgt atggatcttc agctcttgaa 60
acaacagaag tagataactg gttaacgctt tcccttggtc cacttaataa tagaagcgaa 120
gttaccggtg tcttagaaac cctaaataaa gttttaggtt cagttactta cttggttgct 180
aaaagaatta ctgttgctga tttcattgtt tttggtagct tatatacaaa caaacactgg 240
aatgatttaa ccaaatctaa atcggcacca gttaatgttg ttcgttggta cgactttcta 300
catgcacaag aagctgttat gaacatttta aataacctac cccaagatgt agcagcttcg 360
ttgacacaag cagaaaaaca agttagtcaa gagaaaaata ctaatattgg taatcgaaat 420
caagagggaa aatttgtcga tttgcctttt gcacagatgg gtaaagttat tgtcaggttt 480
ccaccagaag catcaggtta tttgcacatc ggccacgcca aagctgccct tctcaaccaa 540
cactatcagg aagctttcca ggggaaactt attttacgtt tcgatgatac taatcctgcc 600
aaagaaaatg tgcattttga aaacgttatt ctggaagatg tagcaatgtt acagattaaa 660
cccgacatat tcacatatac ctcagattac tttgaactta tgttagagtt atgtgaaaaa 720
atgatgaaag aaggaaatgc ctatgtagat gatactgaac cagaggaaat gaaaactcaa 780
agagaacaaa aaatcgagtc agtcaacagg aataatgatg ttcagaagaa tttgctatgt 840
gngaagaatg aaaaaggtac cgag 864
<210>44
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>44
caaggactat tgccagatca ttttgtcc 28
<210>45
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>45
gattttttgt tctctttgag ttttcatttc ctc 33
<210>46
<211>790
<212>DNA
<213>Diabrotica virgifera
<400>46
caaggactat tgccagatct tttgtccaga gctgtatgga tcttcagctc ttgaaacaac 60
agaagtagat aactggttaa cgctttccct tggtctactt aataatagaa gcgaagttac 120
cggtgtctta gaaaccctaa ataaagtttt aggttcagtt acttacttgg ttgctaaaag 180
aattactgtt gctgatttcg ttgtttttgg tagcttatat acaaacaaac actggaatga 240
tttaaccaaa tctaaatcgg caccagttaa tgttgttcgt tggtacgact ttctacatgc 300
acaagaagct gttatgaaca ttttaaataa cctaccccaa gatgtagcag cttcgttgac 360
acaagcagaa aaacaagtta gtcaagagaa aaatactaat attggtaatc gaaatcaaga 420
gggaaaattt gtcgatttgc cttttgcaca ggtgggtaaa gttattgtca ggtttccacc 480
agaagcatca ggttatttgc acatcggcca cgccaaagct gcccttctca accaacacta 540
tcaggaagct ttccagggga aacttatttt acgtttcgat gatactaatc ctgccaaaga 600
aaatgtgcat tttgaaaacg ttattctgga agatgtagca atgttacaga ttaaacccga 660
catattcaca tatacctcag attactttga acttatgtta gagttatgtg aaaaaatgat 720
gaaagaagga aatgcctatg tagatgatac tgaaccagag gaaatgaaaa ctcaaagaga 780
acaaaaaatc 790
<210>47
<211>1491
<212>DNA
<213>Diabrotica virgifera
<400>47
gtgagtagtg aaaaaatatg gccggagcaa tgttatttga aagagccccg tctgtttctt 60
ctcaacacga gaagctttta aaattatcca gggattcaga tgatgaagat caaaatattg 120
tcaataaaga acaagacatc cttaatcttg gtgagaaata taaaaaggag ggcaaggcaa 180
aggaactcgc agagcttata aaggccacca ggcctttttt tgagtttaat aagcaaagca 240
aaagctgcta aattggtaag gtctctagtt gactacttcc tagatttaga agctggtatt 300
ggtatcgaag tacaactctg caaagaatgt atagaatggg caaaggaaga gagaagaact 360
tttctacgtc agtcccttga agccaggctg attgctcttt attttgacac tggaatgtac 420
agcgaagcgc tacaactgga atcgacctta ctgaaagagt taaaaaagtt ggatgacaaa 480
aatttgttgg tggaagtaca actacttgaa agcaaaacat atcatgcttt aagtaattta 540
ccgaaggcta gagctgcact aacttcagca cgaaccacag ctaacgctat ctattgccct 600
ccaaagatgc aggcagcttt agatttacaa tccggagtat tacacgctgc agatgagaag 660
gatttcaaaa cagcttattc ttatttttat gaagcttttg aaggttttga tagtgttgaa 720
tccccaaaag ccctcacagc ccttaaatac atgcttttgt caaaaatcat gataaacagt 780
ccggaagacg tccaacaaat cgttagtggt aaattggcct ttaaatacgc tggtcaagat 840
atagaggcta tgaaatcagt tgcacaggct gcacacaaaa gatcactagc agatttccaa 900
caagctgtaa aacagtttaa acatgaatta gaagatgatg ttattgttag agcacattta 960
ggaacgttgt atgacaatat gttggagcag aacctttgca gaattattga accatattct 1020
agggtacaag tagagtatgt agcaaaaacc ataaaactcc cagtactaca agtagagaag 1080
aaattgtcac agatgatttt agatgccaag tttcatggaa ttttggacca aggcgaaggt 1140
gtcctcatag tattcgaaga aagtgcagta gacaaaacat atgaaatggc cctagaaacg 1200
atccagagta tgagcaaagt agtagatact ctttatcaaa aagcaaagaa attgtcatag 1260
gtataatgta gccgagaatg ttatgaaaat aataaaatga ctgtaaattt ttcagaacta 1320
gattttttgt agacactgtg tttatataac ctatttaatt tgcttttgtt aattcttgtc 1380
tttttaagga ttcttataac tcatagtttt cggagcttga gggttttgga tgtgatggag 1440
tttttttgtt aatacagtat agatattttt taagatactt aaagcttatc t 1491
<210>48
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>48
gcaaagaatg tatagaatgg gcaaaggaag agag 34
<210>49
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>49
ggttctgctc caacatattg tcatacaacg 30
<210>50
<211>675
<212>DNA
<213>Diabrotica virgifera
<400>50
gcaaagaatg tatagaatgg gcaaaggaag agagaagaac ttttctacgt cagtcccttg 60
aagccaggct gattgctctt tattttgaca ctggaatgta cagcgaagcg ctacaactgg 120
aatcgacctt actgaaagag ttaaaaaagt tggatgacaa aaatttgttg gtggaagtac 180
aactacttga aagcaaaaca tatcatgctt taagtaattt accgaaggct agagctgcac 240
taacttcagc acgaaccaca gctaacgcta tctattgccc tccaaagatg caggcagctt 300
tagatttaca atccggagta ttacacgctg cagatgagaa ggatttcaaa acagcttatt 360
cttattttta tgaagctttt gaaggttttg atagtgttga atccccaaaa gccctcacag 420
cccttaaata catgcttttg tcaaaaatca tgataaacag tccggaagac gtccaacaaa 480
tcgttagtgg taaattggcc tttaaatacg ctggtcaaga tatagaggct atgaaatcag 540
ttgcacaggc tgcacacaaa agatcactag cagatttcca acaagctgta aaacagttta 600
aacatgaatt agaagatgat gttattgtta gagcacattt aggaacgttg tatgacaata 660
tgttggagca gaacc 675
<210>51
<211>942
<212>DNA
<213>Diabrotica virgifera
<400>51
gaagaacata cgtccagact ccagacaaac ctttcaacaa atttagaaaa catttatata 60
aaaatatcaa cagttctgct tcagaaatac ataaaatgta atttaactta agtcttgtaa 120
gatatcaatt gttacacacg cgctttggaa cgatgacaga gttttagtaa ttggttaatg 180
agtttataaa tcttcgtcat catcgggcag tgcagtttct gaggcttctt taagatcctt 240
ttcgatttgt tgctgccatt ggggatccat ctggacttct ggaggaagca aggcaggtgc 300
agctacgaat tctaagttgg gatctccaat gagtttccta gccaaccaca agaagggttt 360
ttcaaagttg tagttggatt ttgcagagat gtcatagtat tgtaaattct tcttcctatg 420
gaagacaatg ctctttgcct taactttcct atctttgatg tcaactttgt taccacacaa 480
tacaattggg atattttcac aaactctaac aagatctctg tgccagtttg gaacattttt 540
gtaagtgact ctagatgtaa catcaaacat aattatggca cattgtcctt ggatgtagta 600
tccatcacgc agaccaccaa acttttcttg gcctgctgtg tcccatacgt taaaacgaat 660
ttgtcctcta tttgtgtgga aaactaaagg gtgaacttct actcctaagg ttgctacata 720
tttcttttcg aattcaccag tcatgtgtct ttttacaaag gtagttttgc cagtacctcc 780
atctccgacc aagacgcatt tgaaggtggg catatcttgt tcgccagcca tgattttttg 840
aatttaaact tgtgaataaa aagtactagg aaacaccgat ggcacaaaaa atcacggatt 900
acttcagctt ggttccaaag tcgttagagt tcacaatggc gt 942
<210>52
<211>22
<212>DNA
<213>Diabrotica virgifera
<400>52
cttcgtcatc atcgggcagt gc 22
<210>53
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>53
cgtcttggtc ggagatggag gtactg 26
<210>54
<211>605
<212>DNA
<213>Diabrotica virgifera
<400>54
cttcgtcatc atcgggcagt gcagtttctg aggcttcttt aagatccttt tcgatttgtt 60
gctgccattg gggatccatc tggacttctg gaggaagcaa ggcaggtgca gctacgaatt 120
ctaagttggg atctccaatg agtttcctag ccaaccacaa gaagggtttt tcaaagttgt 180
agttggattt tgcagagatg tcatagtatt gtaaattctt cttcctatgg aagacaatgc 240
tctttgcctt aactttccta tctttgatgt caactttgtt accacacaat acaattggga 300
tattttcaca aactctaaca agatctctgt gccagtttgg aacatttttg taagtgactc 360
tagatgtaac atcaaacata attatggcac attgtccttg gatgtagtat ccatcacgca 420
gaccaccaaa cttttcttgg cctgctgtgt cccatacgtt aaaacgaatt tgtcctctat 480
ttgtgtggaa aactaaaggg tgaacttcta ctcctaaggt tgctacatat ttcttttcga 540
attcaccagt catgtgtctt tttacaaagg tagttttgcc agtacctcca tctccgacca 600
agacg 605
<210>55
<211>763
<212>DNA
<213>Diabrotica virgifera
<400>55
gtcatactca cggttgtttt tgtaaaactt gtaggtaacg aattttcgtt tttagtgaat 60
taacaaaaca acagagtgat tttccaacaa gaataactta tttattagtt tcattaattt 120
gataaacaat aaaatggata gacttcttcg actaggaggt ggaatgccag gtttaactca 180
ggcaccgccg ccttctgatg ctcctgttgt ggatactgcc gaacaagtat acatatcctc 240
cttagcacta ttaaaaatgt tgaagcacgg ccgagctgga gtacccatgg aagtaatggg 300
tcttatgtta ggagaattcg tagatgacta taccgttcgt gtaatcgatg tatttgctat 360
gcctcagact ggtaccggtg tcagtgtaga agctgttgat ccagtttttc aagcaaaaat 420
gcttgacatg ttaagacaga ctggtaggcc agaaatggtt gtggggtggt atcattccca 480
tccaggtttc ggatgttggt tgtctggagt ggatatcaac acccagcaaa gttttgaggc 540
tctctcggaa agagctgtag cagtagtagt tgatccaatc cagtcagtga aaggcaaagt 600
cgttattgat gcctttaggt taataaatcc gaatatgatg gtattgggcc aagaaccgcg 660
ccaaactaca tccaacttag gacatctaca gaaaccatca gtccaggctt tgattcatgg 720
tctcaatcgg cattactact ccatcagtat taattacaga aag 763
<210>56
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>56
cgactaggag gtggaatgcc agg 23
<210>57
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>57
caaagcctgg actgatggtt tctgtag 27
<210>58
<211>564
<212>DNA
<213>Diabrotica virgifera
<400>58
cgactaggag gtggaatgcc aggtttaact caggcaccgc cgccttctga tgctcctgtt 60
gtggatactg ccgaacaagt atacatatcc tccttagcac tattaaaaat gttgaagcac 120
ggccgagctg gagtacccat ggaagtaatg ggtcttatgt taggagaatt cgtagatgac 180
tataccgttc gtgtaatcga tgtatttgct atgcctcaga ctggtaccgg tgtcagtgta 240
gaagctgttg atccagtgtt tcaagcaaaa atgcttgaca tgttaagaca gactggtagg 300
ccagaaatgg ttgtggggtg gtatcattcc catccaggtt tcggatgttg gttgtctgga 360
gtggatatca acacccagca aagttttgag gctctctcgg aaagagctgt agcagtagta 420
gttgatccaa tccagtcagt gaaaggcaaa gtcgttattg atgcctttag gttaataaat 480
ccgaatatga tggtattggg ccaagaaccg cgccaaacta catccaactt aggacatcta 540
cagaaaccat cagtccaggc tttg 564
<210>59
<211>1156
<212>DNA
<213>Diabrotica virgifera
<400>59
cacaaattgg agacaagttc gcgtctaggc acggacaaaa gggaacgtgc ggtatacaat 60
accgtcaaga ggatatgatt tttagtgctg aaggtattac gccagacatt atcattaatc 120
ctcacgctat cccctcccgt atgacgattg gtcacttgat cgagtgcatc caaggtaagg 180
tatcatccaa taaaggagaa atcggtgatg ctacaccttt caacgatgcc gtcaacgtac 240
agaaaatctc cactttgtta caagaatatg gttatcaact cagaggcaac gaagtaatgt 300
acaacggcca tactggacgt aagataaatg ctcagatttt cttaggacct acctattatc 360
aaagattgaa gcacatggtg gacgataaga ttcattcaag agctagagga ccgttgcaga 420
ttctcgtcag acagcctatg gagggtcgtg caagagacgg cggtctacgt ttcggtgaga 480
tggaacgaga ttgtcaaatt tcacacggtg cggcacaatt cttaagagag aggctgtttg 540
aagtttccga tccttataga atccatattt gcaacttctg tggtttgata gctatcgcca 600
atttgcgtaa caacaccttt gaatgtaagg gttgcaaaaa taagacgcag atatcgcaag 660
ttagactgcc ttatgctgcg aaattactgt ttcaagagct aatgtcgatg aatatagcgc 720
cgagacttat ggtactgtag tgtttttaag taaataaata aatgtcctta tctaagagga 780
ttttatattg aaataaacca ttaaaatttt cccaccacac cccaccacca ccacccacac 840
aaaccaacaa acaaaaaaaa aacaaaggaa gaaaaaacaa aacggggggg ggcgctttaa 900
agggatccaa ggtttaaggc ccgcggggag gggacagcct aaatcttttt ttataagggc 960
ccccaaaaat tcaatttccc cggggccgcg cttttttcaa acagcccggg gacggggaaa 1020
aaacccctgg ggggtttccc caattttaat ctcccctttg gcaaaaccct tccccccttt 1080
ttttcccccc cctggggggg gaaaaaaaag aagaaaaaag ggcccccgcc cccccacaat 1140
tctcccccct cctccc 1156
<210>60
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>60
gtctaggcac ggacaaaagg gaacg 25
<210>61
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>61
gacaatctcg ttccatctca ccgaaac 27
<210>62
<211>677
<212>DNA
<213>Diabrotica virgifera
<400>62
gtctaggcac ggacaaaagg gaacgtgcgg tatacaatac cgtcaagagg atatgatttt 60
tagtgctgaa ggtattactc cagacattat catcaatcct cacgctatcc cctcccgtat 120
gacgattggt cacttgatcg agtgcatcca aggtaaggta tcatccaata aaggagaaat 180
cggtgatgct acacctttca acgatgccgt caacgtacag aaaatctcca ctttgttaca 240
agaatatggt tatcaactca gaggcaacga agtaatgtac aacggccaca ctggacgtaa 300
gataaatgct cagattttct taggacctac ttactatcaa agattgaagc acatggtgga 360
cgataagatc cattcaagag ctagaggacc gttgcagatt ctcgtcagac agcctatgga 420
gggccgtgca agagacggtg gtctacgttt cggtgagatg gaacgagatt gtcaaatttc 480
acacggtgct gcacaattct taagagagag gctgtttgaa gtttccgatc cttatagaat 540
ccatatttgc aacttctgtg gtttgatagc tatcgccaat ttgcgtaaca acacctttga 600
atgtaagggt tgcaaaaata agacacagat atcgcaagtt agactgcctt atgctgcgaa 660
attactgttt caagagc 677
<210>63
<211>1156
<212>DNA
<213>Diabrotica virgifera
<400>63
cacaaattgg agacaagttc gcgtctaggc acggacaaaa gggaacgtgc ggtatacaat 60
accgtcaaga ggatatgatt tttagtgctg aaggtattac gccagacatt atcattaatc 120
ctcacgctat cccctcccgt atgacgattg gtcacttgat cgagtgcatc caaggtaagg 180
tatcatccaa taaaggagaa atcggtgatg ctacaccttt caacgatgcc gtcaacgtac 240
agaaaatctc cactttgtta caagaatatg gttatcaact cagaggcaac gaagtaatgt 300
acaacggcca tactggacgt aagataaatg ctcagatttt cttaggacct acctattatc 360
aaagattgaa gcacatggtg gacgataaga ttcattcaag agctagagga ccgttgcaga 420
ttctcgtcag acagcctatg gagggtcgtg caagagacgg cggtctacgt ttcggtgaga 480
tggaacgaga ttgtcaaatt tcacacggtg cggcacaatt cttaagagag aggctgtttg 540
aagtttccga tccttataga atccatattt gcaacttctg tggtttgata gctatcgcca 600
atttgcgtaa caacaccttt gaatgtaagg gttgcaaaaa taagacgcag atatcgcaag 660
ttagactgcc ttatgctgcg aaattactgt ttcaagagct aatgtcgatg aatatagcgc 720
cgagacttat ggtactgtag tgtttttaag taaataaata aatgtcctta tctaagagga 780
ttttatattg aaataaacca ttaaaatttt cccaccacac cccaccacca ccacccacac 840
aaaccaacaa acaaaaaaaa aacaaaggaa gaaaaaacaa aacggggggg ggcgctttaa 900
agggatccaa ggtttaaggc ccgcggggag gggacagcct aaatcttttt ttataagggc 960
ccccaaaaat tcaatttccc cggggccgcg cttttttcaa acagcccggg gacggggaaa 1020
aaacccctgg ggggtttccc caattttaat ctcccctttg gcaaaaccct tccccccttt 1080
ttttcccccc cctggggggg gaaaaaaaag aagaaaaaag ggcccccgcc cccccacaat 1140
tctcccccct cctccc 1156
<210>64
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>64
gtctaggcac ggacaaaagg gaacg 25
<210>65
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>65
gctcttgaaa cagtaatttc gcagcat 27
<210>66
<211>677
<212>DNA
<213>Diabrotica virgifera
<400>66
gtctaggcac ggacaaaagg gaacgtgcgg tatacaatac cgtcaagagg atatgatttt 60
tagtgctgaa ggtattactc cagacattat catcaatcct cacgctatcc cctcccgtat 120
gacgattggt cacttgatcg agtgcatcca aggtaaggta tcatccaata aaggagaaat 180
cggtgatgct acacctttca acgatgccgt caacgtacag aaaatctcca ctttgttaca 240
agaatatggt tatcaactca gaggcaacga agtaatgtac aacggccaca ctggacgtaa 300
gataaatgct cagattttct taggacctac ttactatcaa agattgaagc acatggtgga 360
cgataagatc cattcaagag ctagaggacc gttgcagatt ctcgtcagac agcctatgga 420
gggccgtgca agagacggtg gtctacgttt cggtgagatg gaacgagatt gtcaaatttc 480
acacggtgct gcacaattct taagagagag gctgtttgaa gtttccgatc cttatagaat 540
ccatatttgc aacttctgtg gtttgatagc tatcgccaat ttgcgtaaca acacctttga 600
atgtaagggt tgcaaaaata agacacagat atcgcaagtt agactgcctt atgctgcgaa 660
attactgttt caagagc 677
<210>67
<211>919
<212>DNA
<213>Diabrotica virgifera
<400>67
cggacgcgtg ggttgggatt taacaaatac gtcgttctaa atttctaaaa ctgcatacaa 60
aaaatcctta aaaaactagt gaagattact aaagtgcaat agatacaaaa acaatatttt 120
tacgtattca ccataataat ataaacgtag aaaatgaatc ccgagtatga ttatttattc 180
aaacttctgc tgattggaga ttcaggagta ggaaaatctt gtcttctact gagatttgca 240
gatgatacct acacagaaag ctatattagt accattggcg tagattttaa aatcaggaca 300
atcgatttag atggaaagac aattaaattg caaatttggg atacagcagg tcaggaaagg 360
tttagaacga ttacatcaag ttattaccga ggagcacatg gtattattgt agtgtacgat 420
tgcacagacc aagattcatt caataacgtt aaacaatggc tcgaagaaat cgaccgttat 480
gcgtgtgaca atgtaaacaa attactggta gggaataaaa gcgatttgac aactaagaaa 540
gttgtcgact tcactacagc caaggagtat gccgaccaat tgggtatacc atttttggaa 600
acctcagcta agaatgcaac caatgtagaa caggccttta tgactatggc cgctgaaata 660
aaaaatagag taggacctcc atcttctgcg gtagaccaag gaaataaggt taggttcgat 720
caaagtcgcc cagtcgaaac aaccaaatcc ggttgctgct gaaaatattt agttctcttt 780
ggttgaaggt ggtcactcat gtcatctctt ttgtacggta gcagcgctac agttactctt 840
attctagtaa tatccgtctg tatgtatagt tattttaaag tttttgtttg attttcactt 900
ttaaattttt tttttcaaa 919
<210>68
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>68
caaacttctg ctgattggag attcagg 27
<210>69
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>69
cttggtctac cgcagaagat ggagg 25
<210>70
<211>521
<212>DNA
<213>Diabrotica virgifera
<400>70
caaacttctg ctgattggag attcaggagt aggaaaatct tgtcttctac tgagatttgc 60
agatgatacc tacacagaaa gctatattag taccattggc gtagatttta aaatcaggac 120
aatcgattta gatggaaaga caattaaatt gcaaatttgg gatacagcag gtcaggaaag 180
gtttagaacg attacatcaa gttattaccg aggagcacat ggtattattg tagtgtacga 240
ttgcacagac caagattcat tcaataacgt taaacagtgg ctcgaagaaa tcgaccgtta 300
tgcgtgtgac aatgtaaaca aattactggt agggaataaa agcgatttga caactaagaa 360
agttgtcgac ttcactacag ccaaggagta tgccgaccaa ttgggtatac catttttgga 420
aacctcagct aagaatgcaa ccaatgtaga acaggccttt atgactatgg ccgctgaaat 480
aaaaaataga gtaggacctc catcttctgc ggtagaccaa g 521
<210>71
<211>755
<212>DNA
<213>Diabrotica virgifera
<400>71
cgttaatcta gaaatcagtc tttttatgtt cagaggttga aaataaaacc tcaaaatggt 60
aaacggtagg ataccgtcgg ttcattctaa aacctatgta acgcctaggc gtccatatga 120
gaaggcccgt ttagatcaag aattgaaaat catcggagcc tttggtctcc gaaacaaacg 180
tgaagtatgg agagtaaaat acactctagc caaaatccgt aaggccgcca gagaactgct 240
tactctagaa gagaaagaac ccaaaaggtt gtttgaaggt aatgcactcc tacgtcgttt 300
ggttcgtatt ggagtactag acgagaacag aatgaagctc gattacgtat tgggtctcaa 360
gattgaagat ttcttggaaa gacgtctgca aacacaagtc ttcaaatctg gtctagctaa 420
gtcaatccat catgctaggg tattgatcag acaacgacac attcgggtcc gcaaacaagt 480
tgtgaacatt ccctccttca tcgtccgttt ggattcacaa aaacacatcg acttctctct 540
gaaatcacct ttgggaggcg gtcgtccagg acgtgttaag aggaagaacc tcaccaagaa 600
gagcggtggt ggaggtgcag ctgaagaaga ggaagactaa gctgtatgtc gtgctagttg 660
tactagtact tacatattaa tatacttatg tattaaaaaa aaaaaaaaaa aaaaaaaaaa 720
aaaaaagaaa aaagaaaaaa aaaaaaaaaa aaaaa 755
<210>72
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>72
gtttagatca agaattgaaa atcatcggag c 31
<210>73
<211>21
<212>DNA
<213>Diabrotica virgifera
<400>73
gcacctccac caccgctctt c 21
<210>74
<211>490
<212>DNA
<213>Diabrotica virgifera
<400>74
gtttagatca agaattgaaa atcatcggag cctttggtct ccgaaacaaa cgtgaagtat 60
ggagagtaaa atacactcta gccaaaatcc gtaaggccgc cagagaactg cttactctag 120
aagagaaaga acccaaaagg ttgtttgaag gtaatgcact cctacgtcgt ttggttcgta 180
ttggagtact agacgagaac agaatgaagc tcgattacgt attgggtctc aagattgaag 240
atttcttgga aagacgtctg caaacacaag tcttcaaatc tggtctagct aagtcaatcc 300
atcatgctag ggtattgatc agacaacgac acattcgggt ccgcaaacaa gttgtgaaca 360
ttccctcctt catcgtccgt ttggattcac aaaaacacat cgacttctct ctgaaatcac 420
ctttgggagg cggtcgtcca ggacgtgtta agaggaagaa cctcaccaag aagagcggtg 480
gtggaggtgc 490
<210>75
<211>857
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(818)
<223〉n=a, c, g or t/u
<400>75
catctttctg tctgttcccg gcgttctttg aaaaagtttt caataatact ctaaaaaatg 60
gcagacgctg atgatctatt agattatgaa gatgaggaac agacagaaca aaccgcaact 120
gaaacggcaa ctacagaggt acagaaaaag ggtgtcaagg gcacatatgt atcaatacac 180
agttctgggt ttagagattt tctgttaaaa ccagcaattc tcagagctat agtggactgc 240
gggttcgaac atccttcaga agttcaacat gaatgtattc ctcaagctgt cattggcatg 300
gatattctgt gccaagctaa atccggtatg ggaaaaacgg ctgtttttgt attagctaca 360
ctccaagtaa tagatcctac agaaaatgtt gtatatgttc tcgtcatgtg ccataccaga 420
gagttagcct tccagataag caaagagtac gaacgtttca gtaaatatat gcccaatatt 480
aaagtagggg tcttctttgg tggcttgcct atccagaaag atgaggaaac gttaaaaaat 540
aattgcccgc atatcgttgt gggtactcca ggaagaattt tagcattggt cagatcgaaa 600
aaacttaatc tcaaacatct aaagcatttt attttggatg aatgtgataa aatgttggag 660
ttattagaca tgagacgtga tgttcaagaa atatatcgta acactcccca cgaaaaacaa 720
gtcatgatgt tcagtgccac cttaagtaaa gaaattagac cagtttgcaa gaaatttatg 780
caagatccca tggaagtata tgttgacgac gaagctanat taacattgca tggtctacag 840
caacattatg taaaact 857
<210>76
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>76
gcagacgctg atgatctatt agattatgaa gatg 34
<210>77
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>77
cttgaacatc acgtctcatg tctaataact cc 32
<210>78
<211>627
<212>DNA
<213>Diabrotica virgifera
<400>78
gcagacgctg atgatctatt agattatgaa gatgaggaac agacagaaca aaccgcaact 60
gaaacggcaa ctacagaggt acagaaaaag ggtgtcaagg gcacatatgt atcaatacac 120
agttctgggt ttagagattt tctgttaaaa ccagcaattc tcagagctat agtggactgc 180
gggttcgaac atccttcaga agttcaacat gaatgtattc ctcaagctgt cattggcatg 240
gatattctgt gccaagctaa atccggtatg ggaaaaacgg ctgtttttgt attagctaca 300
ctccaagtaa tagatcctac agaaaatgtt gtatatgttc tcgtcatgtg ccataccaga 360
gagttagcct tccagataag caaagagtac gaacgtttca gtaaatatat gcccaatatt 420
aaagtagggg tcttctttgg tggcttgcct atccagaaag atgaggaaac gttaaaaaat 480
aattgcccgc atatcgttgt gggtactcca ggaagaattt tagcattggt cagatcgaaa 540
aaacttaatc tcaaacatct aaagcatttt attttggatg aatgtgataa aatgttggag 600
ttattagaca tgagagtgat gttcaag 627
<210>79
<211>847
<212>DNA
<213>Diabrotica virgifera
<400>79
cccacgcgtc cgtatctaac caggcagcta aattaaacaa ctttactgat aatgcagaac 60
tgtggctctt aaactacgaa gacgatactt tcaaagacca agtacaagct ttatgggagc 120
aagtgaagcc tttataccta gaacttcacg cctatgtgag gttcaagcta agacaaaaat 180
acggagatgt tgtcccggag aaaggaccta ttcctgctca tttgttagga aatatgtggg 240
cacaaacatg gaacaatatt gcaagcttca cattaccata tccagatgtt gttgattatg 300
atataactgc agaaatgttg aaacagaact tcacagcgaa gaagatattt gaaacggccg 360
aaagtttttt caagtccatc aatttaacag ctatgcccga tctgttctgg cagagatcaa 420
tcatagagaa gccgaaggat agggaaatcg tttgtcatgc ctcagcctgg gacttctacg 480
atggaaagga cttcaggatc aaaatgtgta ctgacgttaa ttatgaggat atgaacacag 540
ctcaccacga aatgggacac atagagtact ttttacagta ccgcaatcag cctactccat 600
accggactgg agctaatgat ggattccacg aagctgttgg agacctgatt tctttatcat 660
tcagttccac caaacatttg cggaaaattg gactaataac atccaaagct gataacaatg 720
aacagcttct caacaactta tacaagattg gtttagaaaa aatcgcattc ttgccatttc 780
gatacttgat cgacttgtgc cgatgggata tctttgcacg aaaaactact cctgaaaact 840
accaact 847
<210>80
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>80
gcgtccgtat ctaaccaggc agc 23
<210>81
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>81
ggtggaactg aatgataaag aaatcaggtc 30
<210>82
<211>666
<212>DNA
<213>Diabrotica virgifera
<400>82
gcgtccgtat ctaaccaggc agctaaatta aacaacttta ctgataatgc agaactgtgg 60
ctcttaaact acgaagacga tactttcaaa gaccaagtac aagctttatg ggagcaagtg 120
aagcctttat acctagaact tcacgcctat gtgaggttca agctaagaca aaaatacgga 180
gatgttgtcc cggagaaagg acctattcct gctcatttgt taggaaatat gtgggcacaa 240
acatggaaca atattgcaag cttcacatta ccatatccag atgttgttga ttatgatata 300
actgcagaaa tgttgaaaca gaacttcaca gcgaagaaga tatttgaaac ggccgaaagt 360
tttttcaagt ccatcaattt aacagctatg cccgatctgt tctggcagag atcaatcata 420
gagaagccga aggataggga aatcgtttgt catgcctcag cctgggactt ctacgatgga 480
aaggacttca ggatcaaaat gtgtactgac gttaattatg aggatatgaa cacagctcac 540
cacgaaatgg gacacataga gtacttttta cagtaccgca atcagcctac tccataccgg 600
actggagcta atgatggatt ccacgaagct gttggagacc tgatttcttt atcattcagt 660
tccacc 666
<210>83
<211>928
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(750)..(835)
<223〉n=a, c, g or t/u
<400>83
cagatgtgtg gtatgcacat cgtcgtacac gctgatgagt tgcaagattt gattaattat 60
tatcaagata gaggatactt tgaagaatta atcggcctat tggaagcagc attgggcttg 120
gaaagggcac acatgggtat gttcaccgaa ttagcaattt tgtattccaa atacaagccc 180
gccaaaatgc gcgaacatct ggaactcttc tggtctcgag tgaatatccc caaagttctt 240
agggcagctg aacaagcaca tttgtgggca gagttagtgt ttttgtatga caaatatgaa 300
gaatatgata acgctgtgtt agccatgatg gctcatccca ccgaagcttg gcgcgaaggt 360
catttcaagg atattattac aaaagttgcc aatatcgaac tttattatag agctattcaa 420
ttttacttgg attacaaacc gctgttgtta aatgaccttt tgttggtgtt ggcacccagg 480
atggatcata ctagggctgt ttctttcttt acaaaaacag gacacttaca gttggttaaa 540
tcctatctcc ggtctgtgca aaatttgaac aacaaagcta tcaacgaggc cctcaactct 600
ctacttatcg aagaagaaga cttccagggt ctgagaacgt ccatcgacgc cttcgataac 660
ttcgacaaca tcggcttggc tcagaaattg gagaagcacg aactgacgga gttcagacgc 720
atcgccgcct acttgtacaa aggcaacaan ccggtggaag cagagcgtag aactgtgcaa 780
aaaggataga ctatttagag acgctatgga gtacacttct gaatctagaa atcangaaat 840
tgccgaaaga gtgctggcat gggtcttgga taggaaggcc tatgattgtt tttcggcatg 900
tttgtatccc tgctacgact tgttacgg 928
<210>84
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>84
gcacatcgtc gtacacgctg atgag 25
<210>85
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>85
cgtgcttctc caatttctga gccaag 26
<210>86
<211>686
<212>DNA
<213>Diabrotica virgifera
<400>86
gcacatcgtc gtacacgctg atgagttgca agatttgatt aattattatc aagatagagg 60
atactttgaa gaattaatcg gcctattgga agcagcattg ggcttggaaa gggcacacat 120
gggtatgttc accgaattag caattttgta ttccaaatac aagcccgcca aaatgcgcga 180
acatctggaa ctcttctggt ctcgagtgaa tatccccaaa gttcttaggg cagctgaaca 240
agcacatttg tgggcagagt tagtgttttt gtatgacaaa tatgaagaat atgataacgc 300
tgtgttagcc atgatggctc atcccaccga agcttggcgc gaaggtcatt tcaaggatat 360
tattacaaaa gttgccaata tcgaacttta ttatagagct attcaatttt acttggatta 420
caaaccgctg ttgttaaatg accttttgtt ggtgttggca cccaggatgg atcatactag 480
ggctgtttct ttctttacaa aaacaggaca cttacagttg gttaaatcct atctccggtc 540
tgtgcaaaat ttgaacaaca aagctatcaa cgaggccctc aactctctac ttatcgaaga 600
agaagacttc cagggtctga gaacgtccat cgacgccttc gataacttcg acaacatcgg 660
cttgtctcag aaattggaga agcacg 686
<210>87
<211>999
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(753)..(827)
<223〉n=a, c, g or t/u
<400>87
aaaaacgaag aaagtacgtt aatatggttc cagggctcca acaagacgag ctattcttac 60
tgggtcgaga acattttaaa atttttggat aagtactacg ttcccagcaa aatagctaaa 120
ggaaatggcc aaattaaaac atgctctcat cacgactatc ctactagtgg agaagtatgc 180
gaagtcgatg tcagagattg ggaagaatgc aacagggatc aattctttaa ttatcacaag 240
aattctccat gtatttttat taaattgaac aaaatatata actgggagcc aatgtattac 300
gatgatccat acgatttacc tgaggaaatg ccggataatc tgaagcaaca tataaggggt 360
atcaacaata ctagagagtt gagaaacgtt tgggtctcat gtcaaggaga aaatcctgct 420
gatgtagaat acttgggccc cattacatac tatccccgaa gcgtacaggg cttccctggt 480
tactattttc cgtacttgaa ctctgaaggt tacctaagtc ctttagtagc agttaaattt 540
gaaagaccag tggctggtat cgttattaac gtagagtgca gagcctgggc aaggaacata 600
ctttacaaca gagccgatag aacgggctct gtgcatttcg agctgctaat tgattaaata 660
ttattttacc caattggaca atagaagaat ccttcaggac tttttaattc aaatattata 720
tagtaataga aatgttgcct tanaatangg ggcttttata aaatagccga tcgatcacat 780
anagtaagct ataagaagta cattccaata tgaaccaccc ataccanata tttttataca 840
ttttataaat ttatataact tttttaatct tactgaaata tccttttggc atccattgtt 900
gcaatttttg tttctagatt aaaatatatt gggttccata ttatttttaa agggatgaat 960
aatttttgga aaagaaaaaa atttttgttt tggtggggg 999
<210>88
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>88
gaagaaagta cgttaatatg gttccagggc tc 32
<210>89
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>89
gtatgttcct tgcccaggct ctgc 24
<210>90
<211>595
<212>DNA
<213>Diabrotica virgifera
<400>90
gaagaaagta cgttaatatg gttccagggc tccaacaaga cgagctattc ttactgggtc 60
gagaacattt taaaattttt ggataagtac tacgttccca gcaaaatagc taaaggaaat 120
ggccaaatta aaacatgctc tcatcacgac tatcctacta gtggagaagt atgcgaagtc 180
gatgtcagag attgggaaga atgcaacagg gatcaattct ttaattatca caagaattct 240
ccatgtattt ttattaaatt gaacaaaata tataactggg agccaatgta ttacgatgat 300
ccatacgatt tacctgagga aatgccggat aatctgaagc aacatataag gggtatcaac 360
aatactagag agttgagaaa cgtttgggtc tcatgtcaag gagaaaatcc tgctgatgta 420
gaatacttgg gccccattac atactatccc cgaagcgtac agggcttccc tggttactat 480
tttccgtact tgaactctga aggttaccta agtcctttag tagcagttaa atttgaaaga 540
ccagtggctg gtatcgttat taacgtagag tgcagagcct gggcaaggaa catac 595
<210>91
<211>1560
<212>DNA
<213>Diabrotica virgifera
<400>91
cggacgcgtg ggaaacacat ggatttcgtc gtctcgtcat aagttgaaat acaagtgaaa 60
atatttgtga tatttagttt tagtgtgcca aaataaaaat ggatgacgac caacaatttt 120
gtttacggtg gaacaaccat caatcgacat tggtagccgt ttttgacacg ttattggaga 180
acggcacatt agtagactgt actttggcag cagaaggaaa atgcctaaac gcacacaaag 240
tagttttgtc tgcatgtagt ccatacttcg aggcgctgct gtcaaagcac tttgacaagc 300
atcccattct tattcttaag gacgttaagt tccaagaact aaaagccatg atggactata 360
tgtacagggg ggaagtgaac atatctcaag atcaattagg cgcgctttta aaagccgctg 420
aatctttgca aattaagggt ttatcagaca ataggaaagg ggaaactgaa cgaaaaccca 480
ctcctgctcc tccaccaaag agcccacagc caacgaccct gccgaaggtc cagggtttga 540
caattgagca aagagctcgg gaggattcca gggagggaag catgtcacca gggcctcgaa 600
aaaagaaaag gttaaggcgg aaaagtgagg aattagacaa ccacgatgcc tctaattctt 660
cagaatctca cagtctaccc gcccaaagca ttcctacgtt acctgctatt tcaaaaatga 720
acatgaacgc cgatgtgcct gaacaaatag aaactaaatc agagatactc acaaggcata 780
aacagacaga tgacatgccc caagttccta ttataaaaga aaagattgaa acccacacag 840
aactgatgtt ggaaccaaag tctgaatatg tagaagaaat gaatgaagat agtattgagg 900
atttgacact ggatgatgac gatttaagta atatggaaca ggtagatgat caagcaggac 960
ctagtcatgg agcaggagaa ggatcaagtc aaggttttgg aggttggcat atgggtaacc 1020
aaagtcaaga tgaagtattt ctggccgcgc aagaggccgt aggtgcacat cgagactcac 1080
aaggtaagat ttttgttttc aattgtaaag gcttgtctac tgttctgcaa ctgacttgtt 1140
aaaggagtgt atacttcaac cactcctttg gtcatgagac ctgttagtac ttacaaacta 1200
caatggtagt tgttgaagtt ctttacagta gacaagtttc attcacttgc aagtggtatg 1260
gcaaaattta acaccctgac ttccagtctc tggtttaaca ttttatttta ttttacctaa 1320
cgggtagtcc ttggtttctc ctgttgctta acacttagct ttttatttta ctagatgtag 1380
tagtagttat ttttggtttt acccatcacc tttctccctc cctcaagatt gacagcactc 1440
cttcatcaat ttttcatttg gaggtaccag ccagccctac aggtcaaccc aaaaccacta 1500
gtattttaaa tctaaattgt tttgagagaa gtttcataga tgatacctta ctattaataa 1560
<210>92
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>92
cgtgggaaac acatggattt cgtc 24
<210>93
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>93
ggaacttggg gcatgtcatc tgtc 24
<210>94
<211>802
<212>DNA
<213>Diabrotica virgifera
<400>94
cgtgggaaac acatggattt cgtcgtctcg tcataagttg aaatacaagt gaaaatattt 60
gtgatattta gttttagtgt gccaaaataa aaatggatga cgaccaacaa ttttgtttac 120
ggtggaacaa ccatcaatcg acattggtag ccgtttttga cacgttattg gagaacggca 180
cattagtaga ctgtactttg gcagcagaag gaaaatgcct aaacgcacac aaagtagttt 240
tgtctgcatg tagtccatac ttcgaggcgc tgctgtcaaa gcactttgac aagcatccca 300
ttcttattct taaggacgtt aagttccaag aactaaaagc catgatggac tatatgtaca 360
ggggggaagt gaacatatct caagatcaat taggcgcgct tttaaaagcc gctgaatctt 420
tgcaaattaa gggtttatca gacaatagga aaggggaaac tgaacgaaaa cccactcctg 480
ctcctccacc aaagagccca cagccaacga ccctgccgaa ggtccagggt ttgacaattg 540
agcaaagagc tcgggaggat tccagggagg gaagcatgtc accagggcct cgaaaaaaga 600
aaaggttaag gcggaaaagt gaggaattag acaaccacga tgcctctaat tcttcagaat 660
ctcacagtct acccgcccaa agcattccta cgttacctgc tatttcaaaa atgaacatga 720
acgccgatgt gcctgaacaa atagaaacta aatcagagat actcacaagg cataaacaga 780
cagatgacat gccccaagtt ca 802
<210>95
<211>1412
<212>DNA
<213>Diabrotica virgifera
<400>95
gaagtgactt ctggcccgtc ttgtgcaggt tgttcagatt cgcttcgagg agaagaatcg 60
tcgctggcgg ttggattgtc gtttgcagtc gagtttgttt ttgggttctt gctctgtgaa 120
ttgtttttgt tcctcacgaa ttttggcctc cgaccatacg gataacgttg ggggctaggt 180
ttaggttttg gctgaattgc tttcttttca ggatcaaaga aatgatctaa gatatccaac 240
agctcttcca gatctttatc cttcgcattt gctacctcac tcttaataac tttttccaaa 300
ccatccttgg cgtcagaatc ataagcgatt ttaagtttgt cataattaat gttgttctct 360
gccaaaagtc tccttaaatg gctcgcgtgc tgcctctcag ttcgactggc ccgtaacagt 420
gctccaaaca ctggccggaa tgtattttgt ctttctaata ataccttaaa aagagctatt 480
tcctcttcct cagcatctat aggattgaca tatggacata ccacttccat gagatgactt 540
tctgttccag tacaatcttt actggctgcc tctcccttta attcctctct ttccccttga 600
gctaaatgag cagcaatatc aaatgaagcc cttgctctat ctactgcact gttgaagtgc 660
tctgcacccc tgtttaacaa taccttagac attatatgga gattgaaaga tttcgtggtg 720
ttgccacatt ttgcttgggc tatattgaag ccattagcaa agccttttac caccttttgg 780
aacctttcaa tcatattatg tcttcttaat gattctaaca gcatccccgg tgaggctttg 840
cgaagttcat aataaatcaa tataattcca tcaacgtcat ttcctttaac agtctccaac 900
catttcaaga agtcttggag agcagaaatt tcactcttgg tcttcaagaa ttcctgggtg 960
ttgacatctt tcaaccttct gtagcggatt gtgtttacta ctctgatacc atgtcttctg 1020
ctgtaggtag gattcaaatc tccaaatggc atgacatact gtgaaaactg tgattcaggt 1080
gtaaacgcag ctatttgaat gatttcatca attagtctgc ggccagtagt atctataccc 1140
catcctacaa gcttgtattt tccagtagga ataccctttg ctggattttc aggaacaact 1200
ggcactgaac tctccctctc atcaccagag tttgcactct ccttctgcac catcataaat 1260
tatttattat cacaaaaggc tggccaaaat aaattttata ccatcacttt tccaaaactt 1320
ataatgacaa tacaaaatta attattcata aaaaataaca attgcaatcg gaatttataa 1380
ataaaaattc aaagaaaatt ccgaaacaca cg 1412
<210>96
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>96
gcaggttgtt cagattcgct tcg 23
<210>97
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>97
ggtggtaaaa ggctttgcta atggc 25
<210>98
<211>750
<212>DNA
<213>Diabrotica virgifera
<400>98
gcaggttgtt cagattcgct tcgaggagaa gaatcgtcgc tggcggttgg attgtcgttt 60
gcagtcgagt ttgtttttgg gttcttgctc tgtgaattgt ttttgttcct cacgaatttt 120
ggcctccgac catacggata acgttggggg ctaggtttag gttttggctg aattgctttc 180
ttttcaggat caaagaaatg atctaagata tccaacagct cttccagatc tttatccttc 240
gcatttgcta cctcactctt aataactttt tccaaaccat ccttggcgtc agaatcataa 300
gcgattttaa gtttgtcata attaatgttg ttctctgcca aaagtctcct taaatggctc 360
gcgtgctgcc tctcagttcg actggcccgt aacagtgctc caaacactgg ccggaatgta 420
ttttgtcttt ctaataatac cttaaaaaga gctatttcct cttcctcagc atctatagga 480
ttgacatatg gacataccac ttccatgaga tgactttctg ttccagtaca atctttactg 540
gctgcctctc cctttaattc ctctctttcc ccttgagcta aatgagcagc aatatcaaat 600
gaagcccttg ctctatctac tgcactgttg aagtgctctg cacccctgtt taacaatacc 660
ttagacatta tatggagatt gaaagattta gtggtgttgc cacattttgc ttgggctata 720
ttgaagccat tagcaaagcc ttttaccacc 750
<210>99
<211>441
<212>DNA
<213>Diabrotica virgifera
<400>99
ggaaaagaag atcaaagtat atttaaaata gctaaaaggg attcgccgac gaagacaata 60
gtctcggatt tgaagcctgg tacaaggtat agattgtggt tggaggttta cttgactaat 120
ggaaaaatta agactagtaa cgtacaagat tttatcacca agcccagaac tgcaccgtcg 180
ttgggcgcat caacacaaca agataaactc tccagagcgg agcatcttga acccaaagga 240
gactactatg gtcctctagt cattgtagca atattagcag cgattgccat attgagtact 300
ttggtactat tactgatttt gattcgacga cataatcaaa acaaggctgc catcacacca 360
ccatctcgaa tcaatcagtc tgcttatgat aatccttcat ataaggttga aatacaacag 420
gaaacaatgg gtaaaggttt t 441
<210>100
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>100
gattcgccga cgaagacaat agtctc 26
<210>101
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>101
ctttacccat tgtttcctgt tgtatttcaa cc 32
<210>102
<211>396
<212>DNA
<213>Diabrotica virgifera
<400>102
gattcgccga cgaagacaaa gtctcggatt tgaagcctgg tacaaggtat agattgtggt 60
tggaggttta cttgactaat ggaaaaatta agactagtaa cgtacaagat tttatcacca 120
agcccagaac tgcaccgtcg ttgggcgcat caacacaaca agataaactc tccagagcgg 180
agcatcttga acccaaagga gactactatg gtcctctagt cattgtagca atattagcag 240
cgattgccat attgagtact ttggtactat tactgatttt gattcgacga cataatcaaa 300
acaaggctgc catcacacca ccatctcgaa tcaatcagtc tgcttatgat aatccttcat 360
ataaggttga aatacaacag gaaacaatgg gtaaag 396
<210>103
<211>2859
<212>DNA
<213>Diabrotica virgifera
<400>103
cgaagtgatt cagtagtacc tttaagtgat taagttttgt tagttaggga ttgtaaatta 60
agatacctac atgaaattgg ttctaatgct tgtggccgtc caggccgcgg cggtattaac 120
gtcaccgccg tcgacaccat ccacaccgtc ggcgccaccg tcgcttccaa ccaattcgaa 180
gacttgcatt gaccactgca cgtgcagctt tggaatgctg accaataggc tgcaggtaac 240
caaatgcgat aggcctctag tacttaacga cgccactttt aagtacatta gcaagacctc 300
aacgaacgtc atcacccttg acaatttgat catcaaccag atccaagtta gtgcattcgc 360
cgggttcaag aatcttgacg atgtcatcat taccaacacg agaattgcga ctatagatgt 420
gaaagccttc gagaatgtga cgcgcctaaa gttctccaaa tgtgcctttg aagacagtcc 480
tgacctcttc tctacaaagt tggaggaggt gcattttggt gaatgcaaat tagaagaaat 540
tcccaatcta aatggactga tcaatctaac gtttttaaat ttatcgggaa attacattaa 600
aaacattgaa gttgaagctt tcgctgaact gtttgatcta ggagagcttc atctttccga 660
caataacatc cacaaactcc cacctactgc gtttattaat aaccaagaat taatcaccct 720
taacctcgac aacaaccccc ttaaacattt taacattaat acatccgaca gtttagagat 780
attgtcactt aagaattgcc aattagagac atttgacgaa gaatcaacaa aaaaattaac 840
ttctcttaat gaattaaacc taagtcacaa caatcttaca gacatattca gtaaagcatt 900
gtcccacatg caggatcttt cagtaattga cctttcttac aataagttga ctaaacttca 960
agataatatt ttctctggaa acggtaaact catcaaagtt atcttagatg gaaacaattt 1020
cgacacctta ccatctttct accgccaaaa ccatgaaagt ttctctactt acacgttctc 1080
ttgtaaatct tgtaacttac gaattctttc agccaacgtc ttccagaata tggatggttt 1140
gattaatctg gaactgtcac acaataagtt aatgaatgtg gataatgtct tcgacaaaat 1200
taccagcttg aaacaattag atatttctta taatgaaatt tcatacttgt cgccagcagc 1260
ttttgtacat aacggcaatt tagaaatttt aaacattgct ggtaatcctt tactggttct 1320
taatccagaa gtgtttgccg caaatcatct tcttagagat attgacgcca gaaatgctac 1380
tctaacaaaa ttgtggtcca actacaacaa acctgttaaa tctttgcata aactgcttct 1440
aagtggaaac ttcttaggaa ctctaaccaa cgatgatttc aacatcatgc ccaaattaga 1500
ggcaatagaa ttggaagaca atcctttagt gtttgatgag aagttatgta tgttattata 1560
ctttttagat cttcaaggca ttactcctat cgattatagc aagaatatat accggagctg 1620
ataaggcttt tagggaagac attgatgatt ttgtaaccat tgaatggaaa gatgttcata 1680
aaggtaaatg tcctgaacat attactgagt ctgctttacc tgaactaact cgcatagata 1740
acaaaactac gtataaaact attgacaaaa ttgagaaaga agattatgag gaagacgatg 1800
acgacgacga tagcgattct gatgaatacg acgatgaata ctacgacgaa gaaacgacta 1860
ctaagttcca agacacatct cttgctagag ccacttacat cttgtcagta acttcagtat 1920
ttgtattaag tgctttagta gtactgacca tagctgttac cttaactcta tgcattctgc 1980
gcagaaacaa ccgctttgac atgcaacgag ctaacttacc aaggctgaaa attcctcttt 2040
ggaatacaac tccaggtcaa aagaaacaca gtgggtctgt atacagacct ctttccgaag 2100
acctctcggg tcccaagact cctaaattga gtcgctatga atttaataca accccagtag 2160
tgcatactgc ttaaagttac ttaaaattct gtggttcata gataaataag actattttgt 2220
ttaatatgta tataatcaaa ttattgtctc ttatgaaata agattagcga taaagtattc 2280
ggctgactgc agtacggcag ataacctagg gaccaaattt ccattacttc tgtgaaccaa 2340
aaccattttt aagctttaat cgtcctgggg actggagagt tcgcattttg tgcactccgc 2400
catagatagg tactgtcgaa aaatgttttg tgtattttta aaataagaca atttgaaaat 2460
tgatttttac catacccttt aaccgtttcc taacaattgc actaggtaaa gatccatttt 2520
catgtactga atttagacta ttgatttaaa atctacttaa ttttcaaatt agaagcatgc 2580
actggtatac cggtgcaatc gaactaagag ctgaatatta atgactctca tagtttgatt 2640
gcagaactat attgtcatgt cttagttcta cgtaatttaa ctgtctataa atgttattgc 2700
gcttatagta tagaaaaata ttgttaagcc acagattaag caggtattgt ttgccatatg 2760
tacctaatat cagcagcatt cagctcttct taatatctgt aaactatcta atttctagtt 2820
gtaatcaaaa tgttttcaat aaatttttta tcggaaaaa 2859
<210>104
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>104
catcttctta gagatattga cgccagaaat gc 32
<210>105
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>105
cagacccact gtgtttcttt tgacctg 27
<210>106
<211>736
<212>DNA
<213>Diabrotica virgifera
<400>106
catcttctta gagatattga cgccagaaat gctactctaa caaaattgtg gtccaactac 60
aacaaacctg ttaaatcttt gcataaactg cttctaagtg gaaacttctt aggaactcta 120
accaacgatg atttcaacat catgcccaaa ttagaggcaa tagaattgga agacaatcct 180
ttagtgtttg atgagaagtt atgtatgtta ttatactttt tagatcttca aggcattact 240
cctatcgatt atagcaagaa tatatatacc ggagctgata aggcttttag ggaagacatt 300
gatgattttg taaccattga atggaaagat gttcataaag gtaaatgtcc tgaacatatt 360
actgagtctg ctttacctga actaactcgc atagataaca aaactacgta taaaactatt 420
gacaaaattg agaaagaaga ttatgaggaa gacgatgacg acgacgatag cgattctgat 480
gaatacgacg atgaatacta cgacgaagaa acgactacta agttccaaga cacatctctt 540
gctagagcca cttacatctt gccagtaact tcagtatttg tattaagtgc tttagtagta 600
ctgaccatag ctgttacctt aactctatgc attctgcgca gaaacaaccg ctttgacatg 660
caacgagcta acttaccaag gctgaaaatt cctctttgga atacaactcc aggtcaaaag 720
aaacacagtg ggtctg 736
<210>107
<211>2859
<212>DNA
<213>Diabrotica virgifera
<400>107
cgaagtgatt cagtagtacc tttaagtgat taagttttgt tagttaggga ttgtaaatta 60
agatacctac atgaaattgg ttctaatgct tgtggccgtc caggccgcgg cggtattaac 120
gtcaccgccg tcgacaccat ccacaccgtc ggcgccaccg tcgcttccaa ccaattcgaa 180
gacttgcatt gaccactgca cgtgcagctt tggaatgctg accaataggc tgcaggtaac 240
caaatgcgat aggcctctag tacttaacga cgccactttt aagtacatta gcaagacctc 300
aacgaacgtc atcacccttg acaatttgat catcaaccag atccaagtta gtgcattcgc 360
cgggttcaag aatcttgacg atgtcatcat taccaacacg agaattgcga ctatagatgt 420
gaaagccttc gagaatgtga cgcgcctaaa gttctccaaa tgtgcctttg aagacagtcc 480
tgacctcttc tctacaaagt tggaggaggt gcattttggt gaatgcaaat tagaagaaat 540
tcccaatcta aatggactga tcaatctaac gtttttaaat ttatcgggaa attacattaa 600
aaacattgaa gttgaagctt tcgctgaact gtttgatcta ggagagcttc atctttccga 660
caataacatc cacaaactcc cacctactgc gtttattaat aaccaagaat taatcaccct 720
taacctcgac aacaaccccc ttaaacattt taacattaat acatccgaca gtttagagat 780
attgtcactt aagaattgcc aattagagac atttgacgaa gaatcaacaa aaaaattaac 840
ttctcttaat gaattaaacc taagtcacaa caatcttaca gacatattca gtaaagcatt 900
gtcccacatg caggatcttt cagtaattga cctttcttac aataagttga ctaaacttca 960
agataatatt ttctctggaa acggtaaact catcaaagtt atcttagatg gaaacaattt 1020
cgacacctta ccatctttct accgccaaaa ccatgaaagt ttctctactt acacgttctc 1080
ttgtaaatct tgtaacttac gaattctttc agccaacgtc ttccagaata tggatggttt 1140
gattaatctg gaactgtcac acaataagtt aatgaatgtg gataatgtct tcgacaaaat 1200
taccagcttg aaacaattag atatttctta taatgaaatt tcatacttgt cgccagcagc 1260
ttttgtacat aacggcaatt tagaaatttt aaacattgct ggtaatcctt tactggttct 1320
taatccagaa gtgtttgccg caaatcatct tcttagagat attgacgcca gaaatgctac 1380
tctaacaaaa ttgtggtcca actacaacaa acctgttaaa tctttgcata aactgcttct 1440
aagtggaaac ttcttaggaa ctctaaccaa cgatgatttc aacatcatgc ccaaattaga 1500
ggcaatagaa ttggaagaca atcctttagt gtttgatgag aagttatgta tgttattata 1560
ctttttagat cttcaaggca ttactcctat cgattatagc aagaatatat accggagctg 1620
ataaggcttt tagggaagac attgatgatt ttgtaaccat tgaatggaaa gatgttcata 1680
aaggtaaatg tcctgaacat attactgagt ctgctttacc tgaactaact cgcatagata 1740
acaaaactac gtataaaact attgacaaaa ttgagaaaga agattatgag gaagacgatg 1800
acgacgacga tagcgattct gatgaatacg acgatgaata ctacgacgaa gaaacgacta 1860
ctaagttcca agacacatct cttgctagag ccacttacat cttgtcagta acttcagtat 1920
ttgtattaag tgctttagta gtactgacca tagctgttac cttaactcta tgcattctgc 1980
gcagaaacaa ccgctttgac atgcaacgag ctaacttacc aaggctgaaa attcctcttt 2040
ggaatacaac tccaggtcaa aagaaacaca gtgggtctgt atacagacct ctttccgaag 2100
acctctcggg tcccaagact cctaaattga gtcgctatga atttaataca accccagtag 2160
tgcatactgc ttaaagttac ttaaaattct gtggttcata gataaataag actattttgt 2220
ttaatatgta tataatcaaa ttattgtctc ttatgaaata agattagcga taaagtattc 2280
ggctgactgc agtacggcag ataacctagg gaccaaattt ccattacttc tgtgaaccaa 2340
aaccattttt aagctttaat cgtcctgggg actggagagt tcgcattttg tgcactccgc 2400
catagatagg tactgtcgaa aaatgttttg tgtattttta aaataagaca atttgaaaat 2460
tgatttttac catacccttt aaccgtttcc taacaattgc actaggtaaa gatccatttt 2520
catgtactga atttagacta ttgatttaaa atctacttaa ttttcaaatt agaagcatgc 2580
actggtatac cggtgcaatc gaactaagag ctgaatatta atgactctca tagtttgatt 2640
gcagaactat attgtcatgt cttagttcta cgtaatttaa ctgtctataa atgttattgc 2700
gcttatagta tagaaaaata ttgttaagcc acagattaag caggtattgt ttgccatatg 2760
tacctaatat cagcagcatt cagctcttct taatatctgt aaactatcta atttctagtt 2820
gtaatcaaaa tgttttcaat aaatttttta tcggaaaaa 2859
<210>108
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>108
cgacgccact tttaagtaca ttagcaagac 30
<210>109
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>109
ctaagataac tttgatgagt ttaccgtttc cag 33
<210>110
<211>740
<212>DNA
<213>Diabrotica virgifera
<400>110
cgacgccact tttaagtaca ttagcaagac ctcaacgaac gtcatcaccc ttgacaattt 60
gatcatcaac cagatccaag ttagtgcatt cgccgggttc aagaatcttg acgatgtcat 120
cattaccaac acgagaattg cgactataga tgtgaaagcc ttcgagaatg tgacgcgcct 180
aaagttctcc aaaagtgcct ttgaagacag tcctgacctc ttctctacaa agttggagga 240
ggtgcatttt ggtgaatgca aattagaaga aattcccaat ctaaatggac tgatcaatct 300
aacgttttta aatttatcgg gaaattacat taaaaacatt gaagttgaag ctttcgctga 360
actgtttgat ctaggagagc ttcatctttc cgacaataac atccacaaac tcccacctac 420
tgcgtttatt aataaccaag aattaatcac ccttaacctc gacaacaacc cccttaaaca 480
ttttaacatt aatacatccg acagtttaga gatattgtca cttaagaatt gccaattaga 540
gacatttgac gaagaatcaa caaaaaaatt aacttctctt aatgaattaa acctaagtca 600
caacaatctt acagacatat tcagtaaagc attgtcccac atgcaggatc tttcagtaat 660
tgacctttct tacaataagt tgactaaact tcaagataat attttctctg gaaacggtaa 720
actcatcaaa gttatcttag 740
<210>111
<211>464
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(313)..(407)
<223〉n=a, c, g or t/u
<400>111
caagctaaag atagatttct ttcacaatta attagtgaaa atccatttgt agatataaat 60
atatttttga aattcaataa aattagaaaa ttaaactgta ctctggatga tttacgaaaa 120
gcaattagca agtcggatat gatagaacta tcagaatgca aagaaagaat aaagagaaag 180
atgcctataa aaattaatga aaatgtagac aattgtacaa tatatgttga aaatattaaa 240
gccgatgcta accatgagtg ggtttcacag atattttcag aatttggaaa tgtggtttat 300
gtttccatac canaatacag acataatana acaaacaaag gttttgcttt tgttgagttc 360
gaagatgaag ctggtgctaa aaatgctctt acatactttg agagtantgg gtgtaaaatg 420
ccatcagaaa caaacccgga gaaattaaag agtatcagac attc 464
<210>112
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>112
ctctggatga tttacgaaaa gcaattagca 30
<210>113
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>113
ggtttgtttc tgatggcatt ttacacc 27
<210>114
<211>336
<212>DNA
<213>Diabrotica virgifera
<400>114
ctctggatga tttacgaaaa gcaattagca agtcggatat gatagaacta tcagaatgca 60
aagaaagaat aaagagaaag atgcctataa aaattaatga aaatgtagac aattgtacaa 120
tatatgttga aaatattaaa gccgatgcta accatgagtg ggtttcacag atattttcag 180
aatttggaaa tgtggtttat gtttccatac caaaatacag acataataaa acaaacaaag 240
gttttgcttt tgttgagttc gaagatgaag ctggtgctaa aaatgctctt acatactttg 300
agagtattgg gtgtaaaatg ccatcagaaa caaacc 336
<210>115
<211>968
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(922)
<223〉n=a, c, g or t/u
<400>115
cttttaaact tgtttagtga tctcttcatt tttaaatcgg ctgttaatga aagactgtga 60
tttttgtagt tgttgtgata tcaaaatgag gcgtactttt ggattactgc tagtttttct 120
aggattgtgg acattgtgta tagcacaaac ggaatattgt atgaccccaa ggcaggaagg 180
aggagattgc aaaataatta cacaatgtcc aagtttattt aaaattttaa aaaatcgtcc 240
tattagatct gaggacgcgg attatttaag aaaatcacaa tgtggtttcg aggggacgtt 300
accaaaagtg tgctgtgctc tgcaagaaac tgttcaaact accacgcagc gtcaagtaga 360
atatgacacc cctaaacctg cagatagtcc cctgttacca tcaaaagaag actgcggtat 420
tggaagtata ccagacaaaa tttatggagg taatacaacg gatctcgatg aatttccatg 480
gatggccctc cttgattacg aaaaagataa tggtaatcac ggattttatt gtggaggagt 540
actaattaac tcacggtata tacttacagc agctcattgt gtcaaaggaa aagatttacc 600
aagaaattgg aaactagttg gcgttaggct tggagaatat aatttagaaa cagacacaga 660
ctgtgtacaa acagtaagtg gtcaaaaatg tgcacctcct ccagttaatg ttgctgtaga 720
agaacaaatt gcccatgagc agtacaagcc ctacgatcaa aaccaatacc atgacattgc 780
cttacttaga cttgcaagaa atgtaaaaat taccggattt gttagaccca tctgtcttcc 840
aaaaactgct gatgatcaat ctagaaacta cacagggcaa aaactaacag ttgctggatg 900
gggtaaaacg gaacacgatc gnaaagtaac ataaaactca aactagatgt accaagtaaa 960
gctaatac 968
<210>116
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>116
caaggcagga aggaggagat tgc 23
<210>117
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>117
gatcatcagc agtttttgga agacagatg 29
<210>118
<211>690
<212>DNA
<213>Diabrotica virgifera
<400>118
caaggcagga aggaggagat tgcaaaataa ttacacaatg tccaagttta tttaaaattt 60
taaaaaatcg tcctattaga tctgaggacg cggattattt aagaaaatca caatgtggtt 120
tcgaggggac gttaccaaaa gtgtgctgtg ctctgcaaga aactgttcaa actaccacgc 180
agcgtcaagt agaatatgac acccctaaac ctgcagatag tcccctgtta ccatcaaaag 240
aagactgcgg tattggaagt ataccagaca aaatttatgg aggtaataca acggatctcg 300
atgaatttcc atggatggcc ctccttgatt acgaaaaaga taatggtaat cacggatttt 360
attgtggagg agtactaatt aactcacggt atatacttac agcagctcat tgtgtcaaag 420
gaaaagattt accaagaaat tggaaactag ttggcgttag gcttggagaa tataatttag 480
aaacagacac agactgtgta caaacagtaa gtggtcaaaa atgtgcacct cctccagtta 540
atgttgctgt agaagaacaa attgcccatg agcagtacaa gccctacgat caaaaccaat 600
accatgacat tgccttactt agacttgcaa gaaatgtaaa aattaccgga tttgttagac 660
ccatctgtct tccaaaaact gctgatgatc 690
<210>119
<211>542
<212>DNA
<213>Diabrotica virgifera
<400>119
cacaaaggaa acgaaagact ggaacttcat ggagaaacta ttcaaattcc aaacgtaact 60
cccgaaaatg gaggtatata cagatgcttg gccgacaatg gcttaaagga acccagtcac 120
aaacacatcg ccataaacat tgaacatgca ccaaagatct caatttccaa gtacctagta 180
acatctaaca aagaaagaga tgccgaatta gtgtgtactg tagatgccta cccagatgca 240
atggtttttt ggaaaaaagg tgaccaaatc atgaaaaacg acgagaccag gaaagttatg 300
actaagagaa gacagcacac cattgaaagc atttttgtca tcaccaatct gactgacgat 360
gacttcggta cctatacttg tgtgggcaag aatagaaatg gtaagaaaga agagaaagtg 420
agcttagtga aaactcctgc agttagggat ttcatcaaac ctgtaaatgt cagcaaagac 480
gtacttttgt cgtggaaagt tgaatcgaaa tcgcccatat cagcacatga aattcagtac 540
ag 542
<210>120
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>120
cacaaaggaa acgaaagact ggaacttc 28
<210>121
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>121
cacaaaggaa acgaaagact ggaacttc 28
<210>122
<211>542
<212>DNA
<213>Diabrotica virgifera
<400>122
cacaaaggaa acgaaagact ggaacttcat ggagaaacta ttcaaattcc aaacgtaact 60
cccgaaaatg gaggtatata cagatgcttg gccgacaatg gcttaaagga acccagtcac 120
aaacacatcg ccataaacat tgaacatgca ccaaagatct caatttccaa gtacctagta 180
acatctaaca aagaaagaga tgccgaatta gtgtgtactg tagatgccta cccagatgca 240
atggtttttt ggaaaaaagg tgaccaaatc atgaaaaacg acgagaccag gaaagttatg 300
actaagagaa gacagcacac cattgaaagc atttttgtca tcaccaatct gactgacgat 360
gacttcggta cctatacttg tgtgggcaag aatagaaatg gtaaggaaga agagaaagtg 420
agcttagtga aaactcctgc agttagggat ttcatcaaac ctgtaaatgt cagcaaagac 480
gtacttttgt cgtggaaagt tgaatcgaaa tcgcccatat cagcacatga aattcagtac 540
ag 542
<210>123
<211>2449
<212>DNA
<213>Diabrotica virgifera
<400>123
aaactcgtcc ataatcgcga tagttgagtg ggtgaggttc caagagaaac ataacatcca 60
tccacaaata tgtcgaaagt aaggatcgga gatgaagaga aggaagggca gtatggttat 120
gtccatgctg tctcaggtcc agtcgttact gctgagaaaa tgtctggttc tgctatgtac 180
gaactggtac gtgtcggata ctatgagctg gtaggagaaa tcattagatt ggaaggtgac 240
atggctacta ttcaggtata cgaagaaaca tcaggtgtaa ctgttggtga tccagtatta 300
agaactggta aaccactttc agtagaactt ggacctggta ttatgggttc catttttgat 360
ggtatccaac gtccattgaa agacatttgt gacgctactg atagtattta catccccaag 420
ggtattaacg taccttcttt atcgagaaca gcaaaatggg acttcaaccc aatcaacatc 480
aagttgggat ctcacttaac tggaggtgat atatatggtc tagttcatga aaacaccctt 540
gtcaaacaca aaatgattct gcctcctaga gctaagggta ctgtaaccta cattgcagaa 600
ccaggaaact acactgttga tgaagtagta ttggaaactg aatttgatgg tgatcgtacc 660
aaatatacta tgttgcaagt atggcctgta cgtcaagcaa ggccagtcag tgaaaaatta 720
cctgccaacc atcctctgct tacaggacag cgtgtacttg atgctctttt cccatgtgta 780
cagggtggta ctactgccat tcccggagct ttcggttgtg gaaaaactgt aatttcacaa 840
tctctttcca aatattccaa ctctgatgtc attatctacg tcggttgcgg agaaagaggt 900
aacgaaatgt ctgaagtatt gagagatttc cctgaattga ctgttgaaat tgacgggcac 960
actgaatcta ttatgaaacg taccgcattg gtcgccaaca catctaacat gcctgtagct 1020
gctcgtgaag cttctatcta tactggtatt actctttctg aatacttccg tgatatgggt 1080
tacaacgtat ctatgatggc tgactcgaca tcacgttggg ccgaagcttt gagagaaatt 1140
tcaggtcgtt tggctgaaat gcctgccgat tccggttatc cggcttactt aggtgcccgt 1200
ttggcttcct tctacgaacg tgctggtcgc gttaaatgtt taggtaatcc agacagagaa 1260
ggatccgttt caattgtagg agccgtatca cctcctggtg gtgatttctc agatcctgtt 1320
accactgcta ctcttggtat tgtacaggtg ttctggggtt tggacaagaa acttgcccaa 1380
cgtaagcact tcccttcagt agactggctt ggatcatatt ccaaatattt aagagcattg 1440
gacgactttt atgacaaaaa cttccaagag tttattcctc ttagaaccaa agttaaggaa 1500
attcttcagg aagaagatga tctagccgaa attgtgcagc tggtaggtaa agcatctctg 1560
gcagaaacgg acaaaatcac cttggaaatt gccaggcttc ttaaagaaga tttcttgcaa 1620
caaaactcat actcttctta tgacagattc tgtccattct ataaaactgt cggtatgttg 1680
agaaacatga tcggtttgta cgacatggcg agacacgctg tagaatcaac cgcacaatca 1740
gaaaataaga tcacttggaa cgtaataaga gattcaatga gtggaatttt atatcaactt 1800
agcagtatga aatttaagga tcccgtaaaa gatggtgaag ctaaaatcaa ggcagatttt 1860
gatcaattat atgaagatat tcagcaggcc ttcagaaact tagaagatta aatcttttta 1920
aggaaatttt cctattttgt tcatcagtgt aagtttaaaa atatagcgat atttatcaaa 1980
aagaataata aggcctctat ccctcacttc tgtgaatatt aatatggccg tactaaagat 2040
agtaactaaa gataggtttt ctcttttttg atattatcct gtacaaaata aattatgtaa 2100
attgttgaat atgtgtatag tttttttggg tgagggtaca gtgcttatta aatacttttt 2160
aaacattttt cccgccattc caattactat taagtttttt cgttttaata cttttttaaa 2220
tatacaggtg cttaatatcg tttatatttt cagtattact tggttttctt catgtaaatt 2280
gttttaaatt tttcttttac ccttttaatc ttgtatatta cattacccaa ttaaagttaa 2340
ttgtacagat taagataaac gagtatctta taacatctat tagattgtta gaatcaataa 2400
atgtagtgta attgttctgt tttgaacaaa taaatgcatc attattgtt 2449
<210>124
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>124
gatagttgag tgggtgaggt tccaagag 28
<210>125
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>125
caagtacacg ctgtcctgta agcagagg 28
<210>126
<211>742
<212>DNA
<213>Diabrotica virgifera
<400>126
gatagttgag tgggtgaggt tccaagagaa acataacatc catccacaaa tatgtcgaaa 60
gtaaggatcg gagatgaaga gaaggaaggg cagtatggtt atgtccatgc tgtctcaggt 120
ccagtcgtta ctgctgagaa aatgtctggt tctgctatgt acgaactggt acgtgtcgga 180
tactatgagc tggtaggaga aatcattaga ttggaaggtg acatggctac tattcaggta 240
tacgaagaaa catcaggtgt aactgttggt gatccagtat taagaactgg taaaccactt 300
tcagtagaac ttggacctgg tattatgggt tccatttttg atggtatcca acgtccattg 360
aaagacattt gtgacgctac tgatagtatt tacatcccca agggtattaa cgtaccttct 420
ttatcgagaa cagcaaaatg ggacttcaac ccaatcaaca tcaagttggg atctcactta 480
actggaggtg atatatatgg tctagttcat gaaaacaccc ttgtcaaaca caaaatgatt 540
ctgcctccta gagctaaggg tactgtaacc tacattgcag aaccaggaaa ctacactgtt 600
gatgaagtag tattggaaac tgaatttgat ggtgatcgta ccaaatatac tatgttgcaa 660
gtatggcctg tacgtcaagc aaggccagtc agtgaaaaat tacctgccaa ccatcctctg 720
cttacaggac agcgtgtact tg 742
<210>127
<211>2014
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(1772)
<223〉n=a, c, g or t/u
<400>127
aggtattgca ggtacaccag gaaggagtat tgtcggtgct aaaggtgata aaggtgacca 60
aggaccttct ggtttagatg gtttagcagg aatacaagga gaaaagggtg atgccggaac 120
cccaggtttc cctggagtga aaggagatag gggttaccca ggtgaacaag gagcaccagg 180
aatggacggc tttccaggaa ccaatggaga aaaaggtgat agaggatttg caggagcgcc 240
cggttttaca ggagagaaag gagaccgagg tttgtcaggt cttgatggat atgaaggaca 300
aaaaggtgaa agaggccgac caggttccac cggacccttc ggcgaaccag gagaaaaagg 360
tgacgtagga gaaacaggtc ctccgggtcc gttggtgcaa attaaaggag ataaaggaga 420
accaggacct tttggattgg aaggcagaca gggtgaaaaa ggagaccgtg gattctctgg 480
agctattggt ctacgaggag agaaagggga tgtaggtttc cctggtgtta aaggaaatct 540
tggtagccca gggcgtccag gagctaaagg tgaacgaggt ctttctgggg tagctggatt 600
accagggttg acaatcaagg gggagaaagg tttgcctgga atacctggca aaaacggaag 660
agaaggtata cctggcaccc cagggcaaat tggtgaacca ggattgccag gtttggacgg 720
cagacaagga ccacctggtc caccaggtcc actgggtctt caagggcaga agggagatcg 780
aggttttgat ggagctccag gaccacaagg gccaaccggg cccccaggac agccaggatt 840
agaaggcgcc cctggacaac gaggtgataa gggagaaaga ggtaaccccg gtgctttcgg 900
agctccggga caaaagggag atcgtggaca aacaggattg caaggaatct caggctatcc 960
gggagaaaaa ggagacagag gttacgatgg aacgcctgga attgaaggac caatgggacc 1020
acctggtctt aaaggagatg ctggtattcc aggacaatct ggaagaccgg gtattccagg 1080
tcaaaagggt gacaaaggag agcgtgcact tcaaggaggt ccaggtccaa aaggagatag 1140
aggttttcct ggaaatcctg ggttaccagg agagagggga cctgcaggtc tcgacggaat 1200
accaggagtt cacggacaaa agggagacaa aggtgagaga ggattcactg gtattgccgg 1260
atcgcctgga ttacaaggag aaaaaggtga tataggtatc gaaggagcaa taggacttca 1320
aggttctatc ggtgatatcg gtccaaaagg tgaacctggt gcttcttgcg ttgatgtccc 1380
tgattatctc actggttctt tactggttag acacagtcaa agtaaagaag ttccaagctg 1440
cgaacgtggt catatccaat tgtgggaagg ttattcctta ctatacgttg agggcaatga 1500
aaaggctcat actcaagact taggttacgc tggctcctgt ataaggaagt tctcaacgat 1560
gccatttgtg ttctgtgatg ttaataacgt ctgtaactac gcaagtagaa acgataaatc 1620
ctactggctc tccaccagtg cagctatacc aatgatgccc gtagaggaat cgcagattga 1680
ggagtatatt tcaagatgtg tcgtatgtga agcacctgcc agtgtcattg ccgtgcacag 1740
tcaatctcta gcacttccag aatgcccata cnggatggag ttccttatgg atcggctaca 1800
gttttgtaat gcacactgca gccggagccg aaggtggagg tcaatctctt tccagtcccg 1860
gttcatgttt agaggacttc agggccacac cgttcatcga atgtaacggt gctcaaggat 1920
catgtcacta tttcgccaac acccttagtt tctggctcgc gaccatcgac aacaaccaac 1980
aattccagaa acctcagaaa cagacactca aagc 2014
<210>128
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>128
gtgaacaagg agcaccagga atgg 24
<210>129
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>129
ccaggcgttc catcgtaacc tctg 24
<210>130
<211>838
<212>DNA
<213>Diabrotica virgifera
<400>130
ccaggcgttc catcgtaacc tctgtctcct ttttctcccg gatagcctga gattccttgc 60
aatcctgttt gtccacgatc tcccttttgt cccggagctc cgaaagcacc ggggttacct 120
ctttctccct tatcacctcg ttgtccaggg gcgccttcta atcctggctg tcctgggggc 180
ccggttggcc cttgtggtcc tggagctcca tcaaaacctc gatctccctt ctgcccttga 240
agacccagtg gacctggtgg accaggtggt ccttgtctgc cgtccaaacc tggcaatcct 300
ggttcaccaa tttgccctgg ggtgccaggt ataccttctc ttccgttttt gccaggtatt 360
ccaggcaaac ctttctcccc cttgattgtc aaccctggta atccagctac cccagaaaga 420
cctcgttcac ctttagctcc tggacgccct gggctaccaa gatttccttt aacaccaggg 480
aaacctacat cccctttctc tcctcgtaga ccaatagctc cagagaatcc acggtctcct 540
ttttcaccct gtctgccttc caatccaaaa ggtcccggtt ctcctttatc tcctttaatt 600
tgcaccaacg gacccggagg acctgtttct cctacgtcac ctttttctcc tggttcgccg 660
aagggtccgg tggaacctgg tcggcctctt tcaccttttt gtccttcata tccatcaaga 720
cctgacaaac ctcggtctcc tttctctcct gtaaaaccgg gcgctcctgc aaatcctcta 780
tcaccttttt ctccattggt tcctggaaaa ccgtccattc ctggtgctcc ttgttcac 838
<210>131
<211>771
<212>DNA
<213>Diabrotica virgifera
<400>131
ggcaatgatt tgtctgcgaa aatttttgca accatggaaa aacataaaga agtgttcttt 60
gtcattaggt tacattctgt acagtctgct gctagcttaa agccaattca ggatcctgat 120
ccttttataa actgtgattt aatggatggt cgagatgcat tcctaacact cgcccgtgaa 180
aaacattatg aattctcttc tttaagaagg gccaaatata gtactttgtc tatgttatat 240
gaattgcata atcaaggtca agataaattt gtatatactt gtaatagttg taaagcccat 300
gtggaaacaa ggtatcattg tactgtgtgt gaagactttg acttgtgcat ccaatgttat 360
gagaaagaag gtcatcctca caaaatggag aaacttggat tggatattga tgatggaagt 420
tcacctagtg atagcaaagc caatccagga gaagctagaa aattatctat acagcgttgt 480
atccattctt tggtacatgc ttgtcaatgc agagatgcca attgtcggtt accaagctgt 540
cagaagatga aacgagtcac aaatcacacc aaattgtgca agaggaaaac aaatggtggt 600
tgccctattt gcaaacaact catcgctcta tgttgctatc atgccaaaca ctgcccagaa 660
aacaagtgtc ctgtaccatt ctgttcatgc ataaagcaca aactaaaaca acaacaattg 720
caacaaaggt tgcaacaggt gcaactactt agtataagaa tggtagttat g 771
<210>132
<211>22
<212>DNA
<213>Diabrotica virgifera
<400>132
gcattcctaa cactcgcccg tg 22
<210>133
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>133
ggacacttgt tttctgggca gtgtttg 27
<210>134
<211>515
<212>DNA
<213>Diabrotica virgifera
<400>134
gcattcctaa cactcgcccg tgaaaaacat tatgaattct cttctttaag aagggccaaa 60
tatagtactt tgtctatgtt atataaattg cataatcaag gtcaagataa atttgtatat 120
acttgtaata gttgtaaagc ccatgtggaa acaaggtatc attgtactgt gtgtgaagac 180
tttgacttgt gcatccaatg ttatgagaaa gaaggtcatc ctcacaaaat ggagaaactt 240
ggattggata ttgatgatgg aagttcacct agtgatagca aagccaatcc aggagaagct 300
agaaaattat ctatacagcg ttgtatccat tctttggtac atgcttgtca atgcagagat 360
gccaattgtc ggttaccaag ctgtcagaag atgaaacgag tcacaaatca caccaaattg 420
tgcaagagga aaacaaatgg tggttgccct atttgcaaac aactcatcgc tctatgttgc 480
tatcatgcca aacactgccc agaaaacaag tgtcc 515
<210>135
<211>1120
<212>DNA
<213>Diabrotica virgifera
<400>135
atttagccca aaatgtctga agaaagtgaa aaaaactcgt tggaaaaagt tagtgaagtc 60
gatggaagta cggacggaat aatattaaat aaaagtgcaa agaaacgtaa caaaaataaa 120
aagaaaaaga atgaaaacca agaagaaaac agtgaccaaa gcaacgaggt tgtccaagcc 180
gaaaacaact tattatctaa cttatcgaac cctattaata caatatcaat taaggagcta 240
aaagcagcca tggaggtatt tactctatca caaaaacctg ccaagagttc agaggaagct 300
ctaaagaaga cattccagtt ttggaatacc cagcctgttc ccaaaatgga cgaaaaaata 360
actgttaacg aagccattga accagacaaa gaacctgctg acattagaca agaaccgtac 420
agtttgcctg atggttttat gtgggacact cttaatctag atgaaccgtt ggtgctcaaa 480
gagttatata cgttactcaa tgaaaactat gttgaagatg acgattgtat gtttagattt 540
gattatcaac ctgaattttt gaaatgggct ttgcaacccc cagggtggaa gcgagaatgg 600
cattgtggag tcagagttgt aaaaagtggt agattagtgg gatttatctc tgcaattcca 660
gcaactctaa acatttataa aaagacacaa agaatggtgg agataaattt tctatgtgta 720
cataaaaagc tacgttccaa acgagtcgca ccagtgttga ttcgagaaat cacccgcaga 780
gtacacctga acggcctatt tcaagcagtg tacaccgccg gcatagtcct accgaaacca 840
gtgagtactt gtacctactg gcatcgatcg ctgaatccga aaaaattaat cgaggtgaag 900
ttttctcatt tgtctcgtaa tatgacgctg caacggactc tcaagttgta caaactgccg 960
gacaagccta agactccggg atttagaaaa atgacagccg aagatatacc tcaagctcac 1020
aaattactag tagagtattt aagtcgattc gacctagcgc catattttaa cgaagaagag 1080
ttcacacatt ggttcctacc tagaacgaac ataatcgaca 1120
<210>136
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>136
gtgaccaaag caacgaggtt gtcc 24
<210>137
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>137
gtaggtacaa gtactcactg gtttcggtag g 31
<210>138
<211>707
<212>DNA
<213>Diabrotica virgifera
<400>138
gtgaccaaag caacgaggtt gtccaagccg aaaacaactt attatctaac ttatcgaacc 60
ctattaatac aatatcaatt aaggagctaa aagcagccat ggaggtattt actctatcac 120
aaaaacctgc caagagttca gaggaagctc taaagaagac attccagttt tggaataccc 180
agcctgttcc caaaatggac gaaaaaataa ctgttaacga agccattgaa ccagacaaag 240
aacctgctga cattagacaa gaaccgtaca gtttgcctga tggttttatg tgggacactc 300
ttaatctaga tgaaccgttg gtgctcaaag agttatatac gttactcaat gaaaactatg 360
ttgaagatga cgattgtatg tttagatttg attatcaacc tgaatttttg aaatgggctt 420
tgcaaccccc agggtggaag cgagaatggc attgtggagt ccgagttgta aaaagtggta 480
gattagtggg atttatctct gcaattccag caactctaaa catttataaa aagacacaaa 540
gaatggtgga gataaatttt ctatgtgtac ataaaaagct acgttccaaa cgagtcgcac 600
cagtgttgat tcgagaaatc acccgcagag tacacctgaa cggcctcttt caagcagtgt 660
acaccgccgg tatagtccta ccgaaaccag tgagtacttg tacctac 707
<210>139
<211>940
<212>DNA
<213>Diabrotica virgifera
<400>139
cgtcaggttg gtcaattcag tattcagaat agtagaattt tgaattttct gtacgtgtac 60
gtgagtcgtg agtgaatcgt atcgtatcgt ggtatcgtat ccggtccggt tagctaagaa 120
tgtgtcaaac agggaagttt ttaaattgtt aatttagaag ttaatttttt gattaagtta 180
tacctaagtg cgaaattttc aaaaatgggc caacacgtat ctagaacaga tttcgaatgg 240
gtatataccg aggaacctca cgctagccgc aggaagcaaa tcttagaaaa atatccccaa 300
atcaagaaac tctttggata cgatccgaac ttcaaatggg tcgtaacgag catggtactt 360
acacaattcg tacttctgta cttactcaaa gataggtcat ggccagtgct aattttagta 420
gcgtattgct taggaggtgt catcaatcac tcgttaatgt tggctataca tgaaatttcc 480
cacaatttgg cgtttggaca cgcacggccg ttgcacaata aattatttgg attttttgcc 540
aatttgccaa taggattacc gattactata agctttaaaa aataccactt ggaacaccac 600
agatatcaag gtgacgaaca gaaagatacg gacatcccaa cgtacataga ggccaaacta 660
ttttgcacga cctttggaaa attcatttgg gtgatactgc aaccgttttt ctactctttc 720
cgcccactcg tagtttatcc gaagccgcct acgcttttgg aattcgtaaa cctggtaatt 780
caactcgcct tcgatgctct cgttgtttat tttttcggag gaagaatgtt gggatatctc 840
cttattggat ctgtcatggc tatgggtctt catccggtag cgggacactt catcagtgaa 900
cattacatgt tcaaaaaggg ctacgaaacg tacagctact 940
<210>140
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>140
gtcaggttgg tcaattcagt attcagaata gtag 34
<210>141
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>141
ggataaacta cgagtgggcg gaaagag 27
<210>142
<211>746
<212>DNA
<213>Diabrotica virgifera
<400>142
gtcaggttgg tcaattcagt attcagaata gtagaatttt gaattttctg tacgtgtacg 60
tgagtcgtga gtcgtgagtg aatcgtatcg tatcgtggta tcgtatccgg tccggttagc 120
taagaatgtg tcaaacaggg aagtttttaa attgttaatt tagaagttaa ttttttgatt 180
aagttatacc taagtgcgaa attttcaaaa atgggccaac acgtatctag aacagatttc 240
gaatgggtat ataccgagga acctcacgct agccgcagga agcaaatctt agaaaaatat 300
ccccaaatca agaaactctt tggatacgat ccgaacttca aatgggtcgt aacgagcatg 360
gtacttacac aattcgtact tctgtactta ctcaaagata ggtcatggcc agtgctaatt 420
ttagtagcgt attgcttagg aggtgtcatc aatcactcgt taatgttggc tatacatgaa 480
atttcccaca atttggcgtt tggacacgca cggccgttgc acaataaatt atttggattt 540
tttgccaatt tgccaatagg attaccgatt actataagct ttaaaaaata ccacttggaa 600
caccacagat atcaaggtga cgaacagaaa gatacggaca tcccaacgta catagaggcc 660
aaactatttt gcacgacctt tggaaaattc atttgggtga tactgcaacc gtttttctac 720
tctttccgcc cactcgtagt ttatcc 746
<210>143
<211>1049
<212>DNA
<213>Diabrotica virgifera
<400>143
gtataaatat ttataaaata caatggctaa gtttcactta agaaaaaagt ctaaacgaca 60
gccagcgcgt ctcagatata agattgaaaa gaaagtccga gagcacaaca gaaaactcaa 120
gaaagaaaat aagaacaacc ctaaaaagaa aaaggaaata atgcaaatcc caaacatatg 180
tccttttaaa gaggacattc ttaaagaagt agaagcacta aagaaacaaa aggaagaaga 240
aaaacttaag ctaagagaag ctgcaaaatt ggaaaggcaa aaggagaaag aggaaagtaa 300
aaaagagaaa cttactgcag gacttcaggg attagtgcaa aatgctgaac taaggagtaa 360
acttcatgaa catttaacac cagataataa tgtaaaacag cacgagacaa ataatgagca 420
gtccctgaaa caatattaca aagagtttaa gaaggttatc gaagctgcag atgttattct 480
agaagtagtt gacgctagag atcctttagg gactagatgt aagcaagtag agcaggctgt 540
gttagataca aaaggtaata aaagactagt cttagtatta aacaaggcag acttagttcc 600
tagagaaatt ttggatcaat ggctaaagta cttgaagaaa accactccca ctatagcatt 660
caaagcatca actcaaaatc aaagtaaaaa gttaggacag agaaagcttg gaaagggaaa 720
taaggtattg cagagttcaa attctgtagg agcagaattg ttaatgtctc tgctagcaaa 780
ctattgtagg aacaagggta tcaaaacttc tataagagtt ggaattgtag gtttgcctaa 840
tgtaggaaaa agttcaatta ttaacagctt aaaaaggtct agagcttgta atgttggtgc 900
aacacctggt gttactaggg caatgcagga agtacaatta gactcaaaga taaaactttt 960
ggattctcct ggtatagttt ttgcatctgg aaatgacagt agtgcttctt tgagaaatgc 1020
agttcgaatt tctgccttga gtgatcctg 1049
<210>144
<211>35
<212>DNA
<213>Diabrotica virgifera
<400>144
gtctcagata taagattgaa aagaaagtcc gagag 35
<210>145
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>145
gctttgaatg ctatagtggg agtggttttc 30
<210>146
<211>598
<212>DNA
<213>Diabrotica virgifera
<400>146
ttctcagata taagattgaa aagaaagtcc gagagcacaa cagaaaactc aagaaagaaa 60
ataagaacaa ccctaaaaag aaaaaggaaa taatacaaat cccaaacata tgtcctttta 120
aagaggacat tcttaaagaa gtagaagcac taaagaaaca aaaggaagaa gaaaaactta 180
agctaagaga agctgcaaaa ttggaaaggc aaaaggagaa agaggaaagt aaaaaagaga 240
aacttactgc agaacttcag ggattagtgc aaaatgctga actaaggagt aaacttcatg 300
aacatctaac accagataat aatgtaaaac agcacgagac aaataatgag cagtccctga 360
aacaatatta caaagagttt aagaaggtta tcgaagctgc agatgttatt ctagaagtag 420
ttgacgctag agatccttta gggactagat gtaagcaagt agagcaggct gtgttagata 480
caaaaggtaa taaaagacta gtcttagtat taaacaaggc agacttagtt cctagggaaa 540
ttttggatca atggctaaag tacttgaaga aaaccactcc cactatagca ttcaaagc 598
<210>147
<211>889
<212>DNA
<213>Diabrotica virgifera
<400>147
gtaaaatagt ttcaaaatgc atcaggaggc catacaactc atccaggtgc tagaaaaaac 60
agtttcaccg gataaaaatg aattggaaca agcgtcatcg tttctcgaac aagctgcagt 120
gactaaccta ctagaattca tcaaaactct atcagatata ttaagacatg gcggaaatag 180
ccctgtggcc cgaatggccg caggtttgca gttaaaaaat caactcacct ctaaagactc 240
caacataaag accacctacc aacaacggtg gttggctttc ccagaggacg ttcgggggta 300
tattaaaaat aacgttgtgt gcgcacttgg aaccgaaaca agcagaccat catccgcagc 360
tcagtgcgta gcatacgtcg cagtaacaga actaccacaa gggcaatggc cagatctcat 420
agcaacgttg gtcaacaatg tttgccatgc aaattccaca gaaatgcaaa aggaagccac 480
attagaagct atcggttata tatgccaaga aatcgactcg gacgtattag tatctcaacc 540
aaacgacatc ttaacagcta tagttcatgg aatgcgagcc tcggaaccga gcaaccacgt 600
tcgtttagca gctacacagg ccctattaaa ctctctagaa ttcacaaagg ccaactttga 660
ccaaccgacg gaacggaact atatcatgga agtcgtctgt gaagccacgc agtctccaga 720
ttcacagatc agagtggccg ctttgcagtg tctagttaag attatgtctt tgtattatca 780
acacatggaa ccttatatgg ctcctgctct attccctatc actctagaag ccatgaagtc 840
ggaaaaacga tgctgtttct ctacagggta tcgaattctg gtctaacgt 889
<210>148
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>148
gccatacaac tcatccaggt gctaga 26
<210>149
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>149
gtgataggga atagagcagg agccatataa g 31
<210>150
<211>792
<212>DNA
<213>Diabrotica virgifera
<400>150
gccatacaat tcatccagtg ctagaaaaaa cagtttcacc ggataaaaat gaatggaaca 60
agcgtcatcg tttctcgaac aagctgcagt gactaaccta ctagaattca tcaaaactct 120
atcagatata ttaagacatg gcggaaatag ccctgtggcc cgaatggccg caggtttgca 180
gttaaaaaat caactcacct ctaaagactc caacataaag accacctacc aacaacggtg 240
gttggctttc ccagaggacg ttcgggggta tattaaaaat aacgttgtgt gcgcacttgg 300
aaccgaaaca agcagaccat catccgcagc tcagtgcgta gcatacgtcg cagtaacaga 360
actaccacaa gggtaatggc cagatctcat agcaacgttg gtcaacaatg tttgccatgc 420
aaattccaca gaaatgcaaa aggaagccac attagaagct atcggttata tatgccaaga 480
aatcgactcg gacgtattag tatctcaatc aaacgacatc ttaacagcta tagttcatgg 540
aatgcgagcc tcggaaccga gcaaccacgt tcgtttagca gctacacagg ccctattaaa 600
ctctctagaa ttcacaaagg ccaactttga ccaaccgacg gaacggaact atatcatgga 660
agtcgtctgt gaagccacgc agtctccaga ttcacagatc agagtggccg ctttgcagtg 720
tctagttaag attatgtctt tgtattatca acacatggaa ccttatatgg ctcctgctct 780
attccctatc ac 792
<210>151
<211>685
<212>DNA
<213>Diabrotica virgifera
<400>151
tccccttccc cgcgtccgca gcatatgcta tacggatcat gccgaagcga ttcaaccagg 60
ctgatagagc tataaatatg gcctgcaaga ctggaagatg ggtcatgctg aagaacgtac 120
acttggctcc tcaatggtta gtccagctgg agaagaagct tcattcactt caacctcacg 180
ccaactttag actattcctc accatggaaa ttaatccgaa actaccagtt aatcttctta 240
gagcaggaag aatatttgta ttcgaacctc caccgggtat tagagctaac ctcttgagaa 300
cattcaacac agttccagtc agtaggatga tgaaagcacc aaacgaaaca gcaagacttt 360
acttcttatt ggcgtggttc cacgcgattg tccaggagag gttgatatat tgccctctag 420
gttgagcaaa acattatgaa tttagtgaat catatttaag agtcgcctgc gatactttgg 480
atacttggat tgataccacg gctatgggaa tgactaactt gccggcagag aaactctcat 540
gtgacaccct agccactctg ctctcgcaat ccatctatgg tggtaaaatc gataacgatt 600
ccgatcaacg actgttacat tccttcctga atctgctttt tactcccata agctttgaaa 660
gcgactttcg cttcaagtcc aacat 685
<210>152
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>152
ggatcatgcc gaagcgattc aac 23
<210>153
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>153
gaatgtaaca gtcgttgatc ggaatcg 27
<210>154
<211>588
<212>DNA
<213>Diabrotica virgifera
<400>154
gatcatgccg aagcgattca accaggctga tagagctata aatatggcct gcaagactgg 60
aagatgggtc atgctgaaga acgtacactt ggctcctcaa tggttagtcc agctggagaa 120
gaagcttcat tcacttcaac ctcacgccaa ctttagacta ttcctcacca tggaaattaa 180
tccgaaacta ccagttaatc ttcttagagc aggaagaata tttgtattcg aacctccacc 240
gggtattaga gctaacctct tgagaacatt cagcacagtt ccagccagta ggatgatgaa 300
agcaccaaac gaaagagcaa gactttactt cttattggcg tggttccacg cgattgtcca 360
ggagaggttg agatattgcc ctctaggttg ggcaaaacat tatgaattta gtgaatcaga 420
tttaagagtt gcctgtgata ctttggatac ttggattgat acaacggcta tgggaaggac 480
gaacttgccg ccagagaaag tcccatggga cgccctagtc actctgctct cgcaatccat 540
ctatggtggt aaaatcgata acgattccga tcaacgactg ttacattc 588
<210>155
<211>946
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(802)..(849)
<223〉n=a, c, g or t/u
<400>155
atccgaacat cctgacttgg taaaattaag atctgtggga aaatctgtaa gaaataggga 60
tttgtgggct ttagaaataa attctaatgt ccgaaacagg acattgttaa caccaatgtt 120
taaatatgtt gctaatatgc atggggatga agccatagga agacagttga tgatttacct 180
ggctctctat ttaattcaca attatggcac taatgatagg gtgaccagat tggttaattc 240
aactgatatt tatttaatgc cttcaatgaa ccctgatggt tatgaaaatt cagaagaggg 300
cagatgtgaa tctaaaaaac aatatgttgg aagagaaaat gaaaatagtg ttgatttaaa 360
tagagatttt ccagatcagt ttgatgctac aaaagcagga acaattctgt ctggtaggca 420
gcctgaaacg atagctatga tgacttggat tatttccaga ccatttgttt tatctggaaa 480
tttgcacgga ggtgcagtag tagctagcta tccgtatgat gattctaact ctggtcgaag 540
atgctgtgta gagagtagat caccagataa taatattttc aaaacgttag cattaaacta 600
cgctcaatcg aatcctgtga tgaaaaaggg taatgcttgt aaagacgata catttgatca 660
gggcatcaca aatggtgctt tttggtatga agtgagaggt ggcatgcaag acttcaacta 720
cgttcactcc aactgtttcg aagtagcttt tgaactgagt tgctgtaaat ttccgttagc 780
caaaactcta cctcaggaat gngcaacaac aaggaagccc tactaacttt catggagtca 840
acacattgng gcgctaaggg attggttaga aacgaaaacg gtgacgccgt tttggacgcc 900
gacgtagtgg ttgtgggtat tacacataac gtcactacat ccaacc 946
<210>156
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>156
ctgtaagaaa tagggatttg tgggctttag 30
<210>157
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>157
gttggagtga acgtagttga agtcttgc 28
<210>158
<211>689
<212>DNA
<213>Diabrotica virgifera
<400>158
ctgtaagaaa tagggatttg tgggctttag aaataaattc taatgtccaa aacaggacat 60
tgttaacacc aatgtttaaa tatgttgcta atatgcatgg ggatgaagcc ataggaagac 120
agttgatgat ttacctggct ctctatttaa ttcacaatta tggcactaat gatagggtga 180
ccagattggt taattcaact gatatttatt taatgccttc aatgaaccct gatggttatg 240
aaaattcaga agagggcaga tgtgaatcta aagaacaata tgttggaaga gaaaatgaaa 300
atagtgttga tttaggtaga gattttccag atcagtttga tgctacaaaa gcaggaacaa 360
ttctgtctgg taggcagcct gaaacgatag ctatgatgac ttggattatt tccagaccat 420
ttgttttatc tggaaatttg cacggaggtg cagtagtagc tagctatccg tatgatgatt 480
ctaactctgg tcgaagatgc tgtgtagaga gtagatcacc agataataat attttcaaaa 540
cgttagcatt aaactacgct caatcgaatc ctgtgatgaa aaagggtaat gcttgtaaag 600
acgatacatt tgatcagggc atcacaaatg gtgctttttg gtatgaagtg agaggtggca 660
tgcaagactt caactacgtt cactccgac 689
<210>159
<211>658
<212>DNA
<213>Diabrotica virgifera
<400>159
gccgtggact tagcgggctg cgggatgatc gtgatctcgt cattgatctt cagaggtttc 60
aactgatctg cagccgacgg cttgggagag ctgttggaag ttgtcgaaga ggtcgtggag 120
ccgcccttct tgtccatgac tcgcttggcg acgacgctgt gggcggaata gacgtggttc 180
tcgaattgtt tgtacattcc gaaggtggcc gtgcacactg tgcatttgta ggacaggtgc 240
gcgggtttca acgtcatgtt atgatcccgg gccacgtggt ttagtaattt ccattggtag 300
actcttccac aaacaggaca ccttcctgaa tctttgctct tgttggcagc atcctgcatg 360
ctggaggtga ctaatccatg agagcctaat aaatgccttt ccaacccttg atctgtgaag 420
aacctaaatt gacacttttg acaatttaat ggcggcctgt tatatatcat cttgggatga 480
atcttaatct tgtgtatcca ttgcatgtga tttctaagct gttcaaggtc cttgatgtac 540
ccatcgcaga tctcgcagat gacgaacgag ttcttggagg atgtatcccc tggtttggcg 600
ccgcccgaag atccaggtgc ggctgcggca gcagatgggg actagttcta gatcgcga 658
<210>160
<211>21
<212>DNA
<213>Diabrotica virgifera
<400>160
gacttagcgg gctgcgggat g 21
<210>161
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>161
gatacatcct ccaagaactc gttcgtca 28
<210>162
<211>580
<212>DNA
<213>Diabrotica virgifera
<400>162
gacttagcgg gctgcgggat gatcgtgatc tcgtcattga tcttcagagg tttcaactga 60
tctgcagccg acggcttggg agagctgttg gaagttgtcg aagaggtcgt ggagccgcct 120
ttcttgccat gactcgcttg gcgacgacgc tgtgggcgga atagacgtgg ttctcgaatt 180
gtttgtacat gccgaatgtg gccgtgcaca ctgtgcattt gtaggacagg tgtgcgggtt 240
tcaacgtcat gttatgatcc cgggccacgt ggtttagtaa tttccattgg tagactcttc 300
cacaaacagg acaccttcct gaatctttgc tcttgttggc agcatcctgc atgctggagg 360
tgactaatcc atgagagcct aataaatgcc tttccaaccc ttgatctgtg aagaacctaa 420
attgacactt ttgacaattt aatggcggcc tgttatatat catcttggga tgaatcttaa 480
tcttgtgtat ccattgcatg tgatttctaa gctgttcgag gtccttgatg tacccatcgc 540
agatctcgca gatgacgaac gagttcttgg aggatgtatc 580
<210>163
<211>888
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(771)
<223〉n=a, c, g or t/u
<400>163
cttattttat ggtgtcgtgc cagcagaaaa ttttaaaaat tcttgtaatt gtttagacat 60
ttcgcaacaa ttgtgaacaa ttttggaaaa tattgcttga aagctataat tctagatgta 120
agagcaaagt tttgtagtca aaatggctgg agtattcgat ttagaactgc atgatgttga 180
aactgtagaa gtagatgatt cagacgatgc aatcgaaatt gaagaggatg aatatgatca 240
aaatcctaat attaatgcaa ttgtagaatc cgatgataca gaaacggttc atctgactga 300
acaaattgtg aatccgggcc aggaaaaaac cggaccccat gactttgaat tacgcaaagt 360
cctgggcaaa ggaggttatg gcaaagtatt tcaagttaga aaaattacgg ggaaagatgc 420
caatactgtc tttgccatga aggttctccg caaggcttcc atagttagaa atcaaaaaga 480
tactgcccat acgaaagcag aacgaaatat tttagaagaa gttaagcatc cttttatagt 540
ggatttgata tatgccttcc aaacgggtgg aaaattgtac ttaattttag aatacctcag 600
cgggggcgaa ctttttatgc atttagaaag agaaggaata tttttagagg ataccgcttg 660
cttttattta tccgaaatca ttctcgccct agaacattta catggacaag gaattattta 720
tagagatcta aagcctgaaa atattttact tgacgcccac ggtcacgtta nattgacaga 780
tttcggtctg tgtaaaaaca cattaacgaa ggcatattga cccacaccgt tttgtggaac 840
tattgaatat atggcacctg aaatttaact agacatggcc atggaaaa 888
<210>164
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>164
gcatgatgtt gaaactgtag aagtagatga ttc 33
<210>165
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>165
gtgtgggtca atatgccttc gttaatg 27
<210>166
<211>658
<212>DNA
<213>Diabrotica virgifera
<400>166
cttatgttga aactgtagaa gtagatgatt cagacgatgc aatcgaaatt gaagaggatg 60
aatatgatca aaatcctaat attaatgcaa ttgtagaatc cgatgataca gaaacggttc 120
atctgactga acaaattgtg aacccgggcc aggaaaaaac cggaccccat gactttgaat 180
tacgcaaagt cctgggcaaa ggaggttatg gcaaagtatt tcaagttaga aaaattacgg 240
ggaaagatgc caatactgtc tttgccatga aggttctccg caaggcttcc atagttagaa 300
atcaaaaaga tactgcccat acgaaagcag aacgaaatat tttagaagaa gttaagcatc 360
cttttatagt ggatttgata tatgccttcc aaacgggtgg aaaattgtac ttaattttag 420
aatacctcag cgggggcgaa ctttttatgc atttagaaag agaaggaata tttttagagg 480
ataccgcttg cttttattta tccgaaatca ttctcgccct agaacattta catggacaag 540
gaattattta tagagatcta aagcctgaaa atattttact tgacgcccac ggtcacgtta 600
aattgacaga tttcggtctg tgtaaagaac acattaacga aggcatattg acccacac 658
<210>167
<211>886
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(805)
<223〉n=a, c, g or t/u
<400>167
cgtttactaa acgtaaacga ataaaacaat aaaagtacaa tgaaaattat ttaaataaga 60
acataagtat ttcagtatgg atcgaccaag tacaagtaag cgaaatgtct ttgactccga 120
ttcagatagt gtcgacagca ctgaagaagc tcgccgaaga gatctgaagg aaagagatga 180
attcgcaaat aggctcaaaa aacgcgatga agaacgtact agaaacgttg ccagtacttc 240
tgataagcgc gcttatgaag aggctgctaa aagacttaaa ttggacaatg cagaaaaaga 300
gaaacttatt cctgcactca gagttgcttc caggaggaag tatttggaga agagaaagga 360
ggacaaacta caagaattgg aagctgatat tgccgatgat gagtaccttt ttgaggaaga 420
tgttttgact gaaagagaga aaaaagatcg tgtacacaag aaagagctgt taaaattggc 480
gcaggaacat gaaaaggcca gggaacttga gcgggttcaa aggtatcaca tgcccagaga 540
tttgggcaag gactccactg ctgattacat tgaagttgat gacttggaga aggtaccaca 600
atctgaacag aagaaatggg aaaaagatca gatggcctcg gcagtgttta agtttggagc 660
aaaagatggg attaaaaaag aagagtatga gttagtgtta gaagatcaaa ttcagtttat 720
acaagcacta caaatgccag gagtgtctga taagaaagaa cccgaactaa cggaaacaga 780
aaagaaaaaa cttactatag aaganacaaa gaaaagcctt ccgatatacc cttttaaaga 840
cgacttaata caggccatta gggaacacca agttttgatt atcgaa 886
<210>168
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>168
cgaccaagta caagtaagcg aaatgtcttt g 31
<210>169
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>169
gttctttctt atcagacact cctggcattt g 31
<210>170
<211>679
<212>DNA
<213>Diabrotica virgifera
<400>170
cgaccaagta caagtaagcg aaatgtcttt gactccgatt cagatagtgt cgacagcact 60
gaagaagctc gccgaagaga tctgaaggaa agagatgaat tcgcaaatag gctcaaaaaa 120
cgcgatgaag aacgtactag aaacgttgcc agtacttctg ataagcgcgc ttatgaagag 180
gctgctaaaa gacttaaatt ggacaatgca gaaaaagaga aacttattcc tgcactcaga 240
gttgcttcca ggaggaagta tttggagaag agaaaggagg acaaactaca agaattggaa 300
gctgatattg ccgatgatga gtaccttttt gaggaagatg ttttgactga aagagagaaa 360
aaagatcgtg tacacaagaa agagctgtta aaattggcgc aggaacatga aaaggccagg 420
gaacttgagc gggttcaaag gtatcacatg cccagagatt tgggcaagga ctccactgct 480
gattacattg aagttgatga cttggagaag gtaccacaat ctgaacagaa gaaatgggaa 540
aaagatcaga tggcctcggc agtgtttaag tttggagcaa aagatgggat taaaaaagaa 600
gagtatgagt tagtgttaga agatcaaatt cagtttatac aagcactaca aatgccagga 660
gtgtctgata agaaagaac 679
<210>171
<211>910
<212>DNA
<213>Diabrotica virgifera
<400>171
accaaaatta taacccagga aggatattga aaatattcag aacttttagg aacccagaag 60
gacgcgaatt cacccgcgta gaatacgtcc ggaagcaagt cgtgatagac gcctacgtca 120
aaattcgtat gaccaaagac gaagaattca taagacagtt cgctacgtta gacgaagcgc 180
agaaggaaga gatgaagaga gagaagcgac ggatacagga gcaactgagg cggatcaaga 240
gaaaccaaga gaaggaaaag atgggaggtg ggcatacgca tatgcattcg acgcctatcg 300
taccgcctgc agggactgcg attgaaaagt tgccaaatcc aagtgactct ctttcgacac 360
ctgttacacc aacttctagt aagagtatgt cctcgtctcc tcctaaatca aggaggaaaa 420
ccaaactcaa gccagatctc aaactcaagt gtggagcctg tggaaatgtc ggccatatga 480
gaacaaacaa agcctgccct ctttatcaag ccacaactgg tcagaacccg cctattaacg 540
ttgccatgac tgaagaacaa gaagaagata tcgagaagca aattaataca gacgatgaag 600
atctcgtaaa cgtagatgga accaaagtta aattgtctgg aaagttgttg aagaattact 660
ttcagcatgc cgaggagatt aagcgtagga gcttaatgtt aaaagtccct aaggacgctt 720
taggtaaccg aaaaagaaga agaggggtgc aagatttaca ttgtgattat ttgaagaaac 780
acaacaggcc agcgaataga agacgaacgg atccggttgt cgttttgtct actattttag 840
agaatatact caatgaaatg cgagatatgc cagacgtcca gccttttctt attccctgtc 900
aatcaaaaac 910
<210>172
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>172
cagaactttt aggaacccag aaggacg 27
<210>173
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>173
gatccgttcg tcttctattc gctgg 25
<210>174
<211>776
<212>DNA
<213>Diabrotica virgifera
<400>174
cagaactttt aggaacccag aaggacgcga attcacccgc gtagaatacg tccggaagca 60
agtcgtggta gacgcctacg tcaaaattcg tatgaccaaa gacgaagaat tcataagaca 120
gttcgctacg ttagacgaag cgcagaagga agagatgaag agagagaagc gacggataca 180
ggagcaactg aggcggatca agagaaacca agagaaggaa aagatgggag gtgggcatac 240
gcatatgcat tcgacgccta tcgtaccgcc tgcagggact gcgattgaaa agttgccaaa 300
tccaagtgac tctctttcga cacctgttac accaacttct agtaagagta tgtcctcgtc 360
tcctcctaaa tcaaggagga aaaccaaact caagccagac ctcaaactca agtgtggagc 420
ctgtggaaat gtcggccata tgagaacaaa caaagcctgc cctctttatc aagccacaac 480
tggtcagaac ccgcctatta acgttgccat gactgaagaa caagaagaag atatcgagaa 540
gcaaattaat acagacgatg aagatctcgt aaacgtagat ggaaccaaag ttaaattgtc 600
tggaaagttg ttgaagaatt actttcagca tgccgaggag attaagcgca ggagtttaat 660
gttaaaagtc cctaaggacg ctttaggtaa ccgaaaaaga agaagagggg tgcaagattt 720
acattgtgat tatttgaaga agcacaatag gccagcgaat agaagacgaa cggatc 776
<210>175
<211>365
<212>DNA
<213>Diabrotica virgifera
<400>175
ggacgcgtgg ggtcaagtga agttatatta aatatattta taataattta tcctatcgtc 60
atcatgagaa gtttaatagt tgccacgatt gtacttttcg ccgtttatca ggcagtagat 120
ggtctcattg cctgtcacga aaccttttgc gacaatcaaa aatgtacaga aaacctcgtt 180
tgcaaagatt ctgaagttct ggttcccaag ggaaccattt gcggatgttg cgacgactgc 240
tacagaaaac taaatgaagg cgatgcttgc aggtcacgtt ttattggagg aggtccattc 300
agaggaaaat gtgtagatgg attagtatgt aacgctgaag gaaaatgcgc caaagcctaa 360
attat 365
<210>176
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>176
cgtttatcag gcagtagatg gtctcattg 29
<210>177
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>177
gcattttcct tcagcgttac atactaatcc 30
<210>178
<211>247
<212>DNA
<213>Diabrotica virgifera
<400>178
cgtttatcag gcagtagatg gtctcattgc ctgtcacgaa accttttgcg acaatcaaaa 60
atgtacagaa aacctcgttt gcaaagattc tgaagttctg gttcccaagg gaaccatttg 120
cggatgttgc gacgactgct acagaaaact aaatgaaggc gatgcttgca ggtcacgttt 180
tattggagga ggtccattca gaggaaaatg tgtagatgga ttagtatgta acgctgaagg 240
aaaatgc 247
<210>179
<211>870
<212>DNA
<213>Diabrotica virgifera
<400>179
acgcgtgggt tcgtattttt ttcttaacaa aagggcaaaa tgagcttttt tggaaaattg 60
ttcgggggga aaaaggaaga gatagcccct agtcctgggg aggctattca aaaactcaga 120
gagactgaag aaatgttaat aaaaaaacag gattttttag aaaagaagat agaagaattt 180
accatggtag caaagaaaaa tgcgtcgaaa aataaaagag ttgcactcca agccctcaaa 240
aagaagaaac gattggaaaa gacccaacta caaatagatg gaacccttac aactattgaa 300
atgcagaggg aagccctcga aggagctagc acaaatactg ctgtattaga ttctatgaaa 360
aatgctgcag atgcccttaa gaaagctcat aagaatttga atgtagatga tgttcacgat 420
atcatggatg acatagccga acaacacgac atagccaacg aaatcacaaa cgctattagc 480
aatcctgtcg gattcaccga cgatctggat gacgatgaat tagaaaaaga attagaagag 540
ctcgaacaag aaggattgga agaagacctg ctccaagtgc caggtccaac tcaactgccg 600
gctgtgcctg ctgatgcagt tgctactaaa ccaatcaaac cagcagctaa aaaagttgaa 660
gatgatgacg atatgaaaga attggaagcc tgggcctcgt aaaattcctg aaatctggat 720
atttgtaaac gaaatcaccc atctaagatg aaaacattat aaatatatag gtaataacag 780
ctaaaaacgt ttcaatgtag aacaagcttt tgctgaaaag gcgtcttgca aaaaatgttg 840
ataatttaga attctctata tattatatat 870
<210>180
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>180
gtcctgggga ggctattcaa aaactc 26
<210>181
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>181
caggcttcca attctttcat atcgtcatc 29
<210>182
<211>601
<212>DNA
<213>Diabrotica virgifera
<400>182
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaattta ccatggtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gccctcaaaa agaagaaacg attggaaaag acccaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaatttgaa tgtagatgat gttcacgata tcatggatga catagccgaa caacacgaca 360
tagccaacga aatcacaaac gctattagca atcctgtcgg attcaccgac gatctggatg 420
acgatgaatt agaaaaagaa ttagaagagc tcgaacaaga aggattggaa gaagacctgc 480
tccaagtgcc aggtccaact caactgccgg ctgtgtctgc tgatgcagtt gctactaaac 540
caatcaaacc agcagctaaa aaagttgaag atgatgacga tatgaaagaa ttggaagcct 600
g 601
<210>183
<211>860
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(804)
<223〉n=a, c, g or t/u
<400>183
acgacaaagt aacatataat taattataaa cactgtttta ttgaaattac aaaactaaac 60
ttatcctaaa aatgatttgt aagcttatgt atatccgtaa ggtcttcaat aagttcttcc 120
attttagtac caattttttg aaacctctga cttttctgtt agcgaaaggt ttaggaaatt 180
ccacactaac tccccatcga ttatagatct agcagggttg ttttgtagtt ttctccaact 240
tttaaatgtc ctgaaagcct tgggatttag gccggcaata tgagctcctt gggaaactaa 300
tacattttgc aacataagta aacggcgata tgttttctct ggaactggca taatgtatcc 360
tatacctcca tccaaagtag caaacattgt aataaacctt ctatctgctc cagaaaaatg 420
ctttttatca tcgcctagtt cacctagttt acatttaatt ttaaagaatg tgttgacagt 480
ttggcctaaa tggaaatccg ctttccttaa tagtctttga cctcctaaag attctcttga 540
ttctggttga tacatataca tggctagatt ttgttctcca tctgatacta aaaatcctag 600
tgatgaatta tctatcatgt attctattga atatacttcg tttggtttga aatccctaga 660
taccattgac agtgttcggt actcttcttg aaaccttaac aacgcgatag atttgtagac 720
atcaccaacc aacagcaaac ttttgatagt aagtatttga tgagtataga cttgtgtatc 780
tataaatgct actccaataa atcngtatct ttgagttgcc aaatatatat cttttgtccc 840
actgctgaca caggaaacct 860
<210>184
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>184
ctctggaact ggcataatgt atcctatacc tc 32
<210>185
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>185
ctgttggttg gtgatgtcta caaatctatc g 31
<210>186
<211>399
<212>DNA
<213>Diabrotica virgifera
<400>186
ctctggaact ggcataatgt atcctatacc tccatccaaa gtagcaaaca ttgtaataaa 60
ccttctatct gctccagaaa aatgcttttt atcatcgcct agttcaccta gtttacattt 120
aattttaaag aatgtgttga cagtttggcc taaatggaaa tccgctttcc ttaatagtct 180
ttgacctcct aaagattctc ttgattctgg ttgatacata tacatggcta gattttgttc 240
tccatctgat actaaaaatc ctagtgatga attatctatc atgtattcta ttgaatatac 300
ttcgtttggt ttgaaatccc tagataccat tgacagtgtt cggtactctt cttgaaacct 360
taacaacgcg atagatttgt agacatcacc aaccaacag 399
<210>187
<211>816
<212>DNA
<213>Diabrotica virgifera
<400>187
ggtcagctgt gtacgggagt tgaagtcgag aaatgcgcct taggcatgta agtgtggctg 60
tcggagacac tcaaagacag caacatgtac gtatacggtt tcgacattac atagacgtgt 120
aatatgcgtg cgagtgcttg atcacggtga agttctggcg tgaacggtgg ctcggaggaa 180
tcatggcgtc ggtggcgggc tcgcaagaac agccgcccgc cgcgcacggc catagcttct 240
gcaagaagac cttccacaag cccacctact gccaccactg cagcgacatg ttatggggcc 300
tcatccagca gggcttcatc tgcgaagttt gcaacttcgt agtgcatgat cgctgcttaa 360
ggactgtggt atccccgtgt tccagcgtct ccgccagtca aataagaaat ccggttgcac 420
actgttggtc ggagtcgttt caccataaaa gaaaattttg caacgtatgt agaaaacggt 480
tagatgacag cgaatccatt cattgcgaaa tttgtgagta tttcgtacat gtggagtgcc 540
aggattttgc agtagctgac tgtaaagaaa atgcaactta tcttccggga aaacaactta 600
ccttcgtgcg tcatcaacat cactggcgcg aaggaaatct tccaagcaat tcccaagtgt 660
gctctctgta aaaagacgtg ctggactact gaatgtttat cccggataca gatgcgaatg 720
gtggtgaatg acgagccatg cctcctgtcc tacgagtatt aatagtgaat ggactttttg 780
gaattctgga acccattcat ctacccccgc aggctg 816
<210>188
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>188
ccttaggcat gtaagtgtgg ctgtcg 26
<210>189
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>189
ctcgtaggac aggaggcatg gct 23
<210>190
<211>717
<212>DNA
<213>Diabrotica virgifera
<400>190
ccttaggcat gtaagtgtgg ctgtcggaga tactcaaaga cagcaacatg tacgtatacg 60
gtttcgacat tacatagacg tgtaatatgc gtgcgagtgc ttgatcacgg tgaagttctg 120
gcgtgaacgg tggctcggag gaatcatggc gtcggtggcg ggctcgcaag aacagccgcc 180
cgccgcgcac ggccatagct tctgcaagaa gaccttccac aagcccacct actgccacca 240
ctgcagcgac atgttatggg gcctcatcca gcagggcttc atctgcgaag tttgcaactt 300
cgtagtgcat gatcgctgct taaggactgt ggtatccccg tgttccagcg tctccgccag 360
tcaaataaga aatccggttg cacactgttg gtcggagtcg tttcaccata aaagaaaatt 420
ttgcaacgta tgtagaaaac ggttagatga cagcgaatcc attcattgcg aaatttgtga 480
gtatttcgta catgtggagt gccaggattt tgcagtagct gactgtaaag aaaatgcaac 540
ttatcttccg ggaaaacaac ttaccttcgt gcgtcatcaa catcactggc gcgaaggaaa 600
tcttccaagc aattccaagt gtgctctctg taaaaagacg tgctggacta ctgaatgttt 660
atccggatac agatgcgaat ggtgtggaat gacgagccat gcctcctgtc ctacgag 717
<210>191
<211>826
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(752)
<223〉n=a, c, g or t/u
<400>191
gcagtggtta gtgcagtttt gtgatttaag aagattacga tggttactac cacgaatgcg 60
gtcactagta ctagcatgat tcaaggaaat agtacgacgc ctacatctaa cacccctggc 120
acaggcgaga ataataatgg tgttaagaga attagtgata atagaaggag taacaagcct 180
attatggaga aaaggcggag ggcgaggata aataactgtc tcaatgagtt gaaaacgctc 240
atattggacg ccatgaaaaa agatcctgcc agacattcaa agctggaaaa agctgacatc 300
ctggagatga cagtcaagca tttacagaac cttcaaagac agcaagtcgc tatgtcagcg 360
gcagcagatc ccttagtagt taataaattc agagcagggt ttagcgagtg cgcttcagaa 420
gtcggcagat ttccaggtct agatccaatc gtccgacgaa ggttactcca gcatctagcc 480
aactgtctca gccaaggttc caaaccacaa gaagttcctc aagtacaagt tcacatactt 540
ccaaacactc aaaaaccttt agaacagcaa gtaccccaaa gcagtggcat tattcttagt 600
aacggtaacg gtactggagt tcaactagta ccaacaagac taccgaatgg agatttagct 660
ctggtacttc ctacgacctt acaaacacag ccccagtatt caccggcggc agtaccatta 720
ttagtgccga tagtaccgga aagaaccgct tncaccacat cagcgaccag cagttactcg 780
aattatttct ccagtcatag tccagagcct atggagtcta tgtaca 826
<210>192
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>192
gcagttttgt gatttaagaa gattacgatg g 31
<210>193
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>193
gctgtgtttg taaggtcgta ggaagtacca 30
<210>194
<211>679
<212>DNA
<213>Diabrotica virgifera
<400>194
gcagttttgt gatttaagaa gattacgatg gttactacca cgaatgcggt cactagtact 60
agcatgattc aaggaaatag tacgacgcct acatctaaca cccctggcac aggcgagaat 120
aataatggtg ttaagagaat tagtgataat agaaggagta acaagcctat tatggagaaa 180
aggcggaggg cgaggataaa taactgtctc aatgagttga aaacgctcat atcggacgcc 240
atgaaaaaag atcctgccag acattcaaag ctggaaaaag ctgacatcct ggagatgaca 300
gtcaagcatt tacagaacct tcaaagacag caagtcgcta tgtcagcggc agcagatccc 360
ttagtagtta ataacttcag agcagggttt agcgagtgcg cttcagaagt cggcagattt 420
ccaggtctag atccaatcgt ccgacgaagg ttactccagc atctagccaa ctgtctcagc 480
caaggttcca aaccacaaga agttcctcaa gtacaagttc acatacttcc aaacactcaa 540
aaacctttag aacagcaagt accccaaagc agtggcatta ttcttagtaa cggtaacggt 600
actggagttc aactagtacc gacaagacta ccgaatggag atttagctct ggtacttcct 660
acgaccttac aaacacagc 679
<210>195
<211>873
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(709)..(772)
<223〉n=a, c, g or t/u
<400>195
cgacgaagtc accgtgggta aattctacgc gactttcctc attcaggatt acttcaggcg 60
gttcaagaag agaaaagagc aggagatgag ggacggagat aaagatattc agaataccgt 120
tacacttcaa gctgggttgc gtacgttaca tgaggctggt ccagaactga aacgcgccat 180
ctcaggcaat ctagatgaat taattgatga caatcccgaa ccaatgcatc gtagaaatca 240
ttcactcttc ggaagtgtat ggtcttcaat gagacgaggt catactttca atagagcgaa 300
atctctgaag ttaaattcaa cccaaatcaa aattacaccg gcttccagcg tcgactatct 360
tccatacaat tctattaaga atgccgtcac agaagggatg aatcacatta cttccatgac 420
gaaaaacgtt caaaaccgtg ttagcgctag ttccttgaac aatcaggata actataagga 480
tgaagaaatt cctctgaggt ctcttagtaa tctgcataat ggagatgaga agaataacta 540
cacggtcatc gataaatctg gcttcctgca ccctaactac aaggttggag caggtgaggc 600
gaatggtcac gtgggaccag agcgtcttag ccattcactg cctggcagtc cggccgaccg 660
tagacttgct tccttcgaag tcgtaggctc tgcggaaagc ctggtaggnc gaatcctagc 720
cgagcaaggc ttaggtaagt actgtgatca ggatttcgtg cgctacacct nncgaagaga 780
tgcagaggca ttggatatga ctcaggagga aatggatcgc gcagcccacc agattctttt 840
cacagagaaa cttatacatc atcctctgca gca 873
<210>196
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>196
cgacgaagtc accgtgggta aattc 25
<210>197
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>197
cgaaggaagc aagtctacgg tcgg 24
<210>198
<211>677
<212>DNA
<213>Diabrotica virgifera
<400>198
cgacgaagtc accgtgggta aattctacgc gactttcctc attcaggatt acttcaggcg 60
gttcaagaag agaaaagagc aggagatgag ggacggagat aaagatattc agaataccgt 120
tacacttcaa gctgggttgc gtacgttaca tgatgctggt ccagaactga aacgcgccat 180
ctcaggcaat ctagatgaat taattgatga caatcccgaa ccaatgcatc gtagaaatca 240
ttcactcttc ggaagtgtat ggtcttcaat gagacgaggt catactttca atagagcgaa 300
atctctgaag ttaaattcaa cccaaatcaa aattacaccg gcttccagcg tcgactatct 360
tccatacaat tctattaaga atgccgtcac agaagggatg aatcacatta cttccatgac 420
gaaaaacgtt caaaaccgtg ttagcgctag ttccttgaac aatcaggata actataagga 480
tgaagaaatt cctctgaggt ctcttagtaa tctgcataat ggagatgaga agaataacta 540
cacggtcatc gataaatctg gcttcctgca ccctaactac aaggttggag caggtgaggc 600
gaatggtcac gtgggaccag agcgtcttag ccattcactg cctggcagtc cggccgaccg 660
tagacttgct tccttcg 677
<210>199
<211>418
<212>DNA
<213>Diabrotica virgifera
<400>199
acggaaacac agttacctgt atcgttccga catttgattt tgcccgagaa aaacttccct 60
cctactgaat tgctggactt gcaaccgctg cctattactg ctttgagaaa cgaacaattt 120
gagtctttat acgccgataa gtttccacag tttaatccta tacaaacaca ggttttcaac 180
tcagtataca atggagacga caacatattc ataggcgctc ccacgggatc aggaaagacc 240
acaatagcaa aatttgccat cctcagactc ttcgattgaa atcctgaagg tcgatgtgtt 300
tatctagttc ctaaggacgc cctcgctgaa ctgattttcg ccgattggca taataagttt 360
ggacaggcct tggcaaagaa agtggtattg ctgactggag aaactggtac tgatctaa 418
<210>200
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>200
cacagttacc tgtatcgttc cgacatttg 29
<210>201
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>201
gatcagtacc agtttctcca gtcagcaata c 31
<210>202
<211>408
<212>DNA
<213>Diabrotica virgifera
<400>202
cacagttacc tgtatcgttc cgacatttga ttttgcccga gaaaaacttc cctccgactg 60
aattgctgga cttgcaaccg ctgcctatta ctgctttgag aaacgaacaa tttgagtctt 120
tatacgccga taagtttcca cagtttaatc ctatacaaac acaggttttc aactcagtat 180
acaatggaga cgacaacata ttcataggcg ctcccacggg atcaggaaag accacaatag 240
cagaatttgc catcctcaga ctcttcgatc gaaatcctga aggtcgatgt gtttatctag 300
ttcctaagga cgccctcgct gaactgattt tcgccgattg gcataataag tttggacagg 360
ccttggcaaa gaaagtggta ttgctgactg gagaaactgg tactgatc 408
<210>203
<211>735
<212>DNA
<213>Diabrotica virgifera
<400>203
cactgtcatt cgtcattctc atacattttt tttgggtact ttgggttgta cttgggataa 60
aagacctttt tgtatttcca aatacattgt catataaatt aaaaaagaaa tggctgccat 120
cagatctatg tctcgccttc ttattaatag atcacttcaa accactgcaa agaggaccta 180
tgccgaccaa atgaacttca catttgcagc tggaaatcag gtttactata ctgcaacttc 240
agttaaacaa gtagatgtac catctttctc tggtagcttt ggtatccttc ccgcccatgt 300
acccacactg gctgtgctaa aacctggagt agtcactgtt tacgaagatg gtggtaatgt 360
taagaaaatc tttgtttcca gtggtactgt caccatcaat gatgattcat cagttcagat 420
tcttgctgaa gaagcccacc cagtagaaaa cattgatgtc aatgcagcaa gagacatcct 480
taccaaagcc cagagccagt tatcatctgc aagtacagat gaggcgaaag ctgaagcctc 540
cattgctgtt gaagtgggag aagcgttagt caaagcggct gaataataat ttaatttttg 600
taattttatg taaatttaat aaattagtgt ctcaatggta ctgttcattt taaaacaaca 660
acatattaga tctatacctc tatgagttga caatttttac aaaaacgaga atcaatccaa 720
atacataatt tttgt 735
<210>204
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>204
ggtactttgg gttgtacttg ggataaaaga c 31
<210>205
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>205
gctttgacta acgcttctcc cacttca 27
<210>206
<211>542
<212>DNA
<213>Diabrotica virgifera
<400>206
ggtactttgg gttgtacttg ggataaaaga cctttttgta tttccaaata cattgtcata 60
taaattaaaa aagaaatggc tgccatcaga tctatgtctc gccttcttat taatagatca 120
cttcaaacca ctgcaaagag gacctatgcc gaccaaatga acttcacatt tgcagctgga 180
aatcaggttt actatactgc aacttcagtt aaacaagtag atgtgccatc tttctctggt 240
agctttggta tcctccccgc ccatgtaccc acactggctg tgctaaaacc tggagtagtc 300
actgtttacg aagatggtgg taatgttaag aaaatctttg tttccagtgg tactgtcacc 360
atcaatgatg attcatcagt tcagattctt gctgaagaag cccacccagt agaaaacatt 420
gatgtcaatg cagcaagaga catccttacc aaagcccaga gccagttatc atctgcaagt 480
acagatgagg cgaaagctga agcctccatt gccgttgaag tgggagaagc gttagtcaaa 540
gc 542
<210>207
<211>686
<212>DNA
<213>Diabrotica virgifera
<400>207
tatatttaat aattaataca gatttttaag tatggcacca aaggaaaaag atgatgaaat 60
cgtatcaata aataaatggg atggagtagc cgtcaaaaat gcattagatg atgcagttaa 120
agaggtactt acaaagaaat acaattatgc tgaaaatttt gctctcatgg atggtaggtt 180
agttatatgt ggcatagctg taggtgttgc aatgtttgcc ttgatttggg attatttgta 240
cccattccca caatctaagc ctattttaat attttctgtt actacatatt tttttatgat 300
gggaatttta actttatata ctacatacaa agagaaagga atctttgctg tttgtattca 360
gaaagatagt tctaagaagg aaaatacttg ggaagctagc tcttatattc aaaagtatga 420
tgataagtat actttgaatc ttgcatatat tgatggaaaa acacgccaaa gaagagagca 480
gagtattaaa aggagtattg ccaggtacat agaccagcaa ggaactgtag ttaaagaaaa 540
tgttgaagat gaaatcacca aaatgcacaa ttctctacta agtgagagga aagaaaaatg 600
atgtacacag agactaccta ctaaaagaag ttgacgtgta aattatttca ttttttatat 660
ttttcaataa gtttttttgg tttgag 686
<210>208
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>208
gtatggcacc aaaggaaaaa gatgatga 28
<210>209
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>209
cattttggtg atttcatctt caacattttc 30
<210>210
<211>536
<212>DNA
<213>Diabrotica virgifera
<400>210
gtatggcacc aaaggaaaaa gatgatgaaa tcgtatcaat aaataaatgg gatggagtgg 60
ccgtcaaaaa tgcattagat gatgcagtta aagaggtact tacaaagaaa tacaattatg 120
ctgaaaattt tgctctcatg gatggtaggt tagttatatg tggcatagct gtaggtgttg 180
caatgtttgc cttgatttgg gattatttgt acccattccc acaatctaag cctattttaa 240
tattttctgt tactacatat ttttttatga tgggaatttt aactttatat actacataca 300
aagagaaagg aatctttgct gtttgtattc agaaagatag ttctaagaag gaaaatactt 360
gggaagctag ctcttatatt caaaagtatg atgataagta tactttgaat cttgcatata 420
ttgatggaaa aacacgccaa agaagagagc agagtattaa aaggagtatt gccaggtaca 480
tagaccagca aggaactgta gttaaagaaa atgttgaaga tgaaatcacc aaaatg 536
<210>211
<211>901
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(707)
<223〉n=a, c, g or t/u
<400>211
cggacgcgtg ggctaatagc attgtgttat ccatttttag cttctagtgt caatgagtac 60
attccattga ttattaaaaa tctagatgaa catactgatg gggtctgtaa taatgctgct 120
tgggtgattg gaaagttgtg tgctgtgatg ggcaatgcaa tccaaccttt ccttccagaa 180
atccttaatg cctttgttca tatattaaga acaccagctg tagctcgtac catgcacaaa 240
actgtagcta tttccttatg catcgtattc tatgtgtgcc ccgatgtgac tattccagaa 300
atggatgtga ttgttaagaa ttgctgtatg ttagtgagaa atgttaggga ttcagatgag 360
aaggatcttg cttttcgagg cttgtgtgag gtgattataa ggcatccaga attcaacaag 420
aactacttca tcttcttttg tgatgctgca gcttcctgga tcaatatccg tgtagatttg 480
aagcagacaa ttcgcaatgt tctattggca tttaaacaac aatgtggtga ggataactgg 540
cgccaatttt attgtcagtt tcctgaagct cttaaactta aacttcaaga gttatatggg 600
gtatgaaata aacaatctac aaaaaacggg gaattcgaca tatgggtggg aaagcttgag 660
tgcacctgcc ttgagtttat cgcgtaatag tatttaaata tcgtccngtg agggaggggc 720
gtcttgccgg tatcttagag tcacgcgtta ataaaaaaat cgagaaggat ttttttagac 780
agattaattt ttttgtttta tgggtagttt cttagtaaat caactaaata atgtttattt 840
aattattttt taaggaattt tataacaaat atggtaattt atattgtgga agtgttttta 900
t 901
<210>212
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>212
cgtgggctaa tagcattgtg ttatcca 27
<210>213
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>213
gaacattgcg aattgtctgc ttcaaatc 28
<210>214
<211>496
<212>DNA
<213>Diabrotica virgifera
<400>214
cgtgggctaa tagcattgtg ttatccattt ttagcttcta gtgtcaatga gtacattcca 60
ttgattatta aaaatctaga tgaacatact gatggggtct gtaataatgc tgcttgggtg 120
attggaaagt tgtgtgctgt gatgggcaat gcaatccaac ctttccttcc agaaatcctt 180
aatgcctttg ttcatatatt aagaacacca gctgtagctc gtaccatgca caaaactgta 240
gctatttcct tatgcatcgt attctatgtg tgccccgatg tgactattcc agaaatggat 300
gtgattgtta agaattgctg tatgttagtg agaaatgtta gggattcaga tgagaaggat 360
cttgcttttc gaggcttgtg tgaggtgatt ataaggcatc cagaattcaa caagaactac 420
ttcatcttct tttgtgatgc tgcagcttcc tggatcaata tccgtgtaga tttgaagcag 480
acaattcgca atgttc 496
<210>215
<211>916
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(870)
<223〉n=a, c, g or t/u
<400>215
ctgtcgggat gtaagagcta tgattgaaag gcaggcgtct agacattgcg atcggcaggc 60
agaatagcag gaaagcaaga caaatcctaa agatcaagcg tcatcgggtt tagaccggca 120
tacagcatgc gaccgcatgg gcataaggag atcgcagtga tcgcacccgt atcggctaat 180
agacacagac acagacacgg tgtgttcggt atttttagtt agtctgttcg cgaccggcga 240
agaagtagcg cgtgtgttta aatagagagt tatggtgata acgtcaacgt gtgttgtgac 300
ggtgtttaag atcaacggtc ggcaccggag tcgacaacgc cagtgagcaa gcagtgcgac 360
actatgtccc agtcatggtg aaaacgtttc tgggactgtt agctgcttca atttgtggtc 420
tcgtatacgc tgctccatta gctgactctt gcaataatct gacccctttt cgaacagata 480
gcacaacccc tacttcttca gaagagtcat tgctagagga tccagcagca cgcaacgaaa 540
gaagcacaaa tctctctcac gtcactggta ccgccagaaa aatacaaatg ttcatcaaga 600
atcgacattt acaaattctt cctgacggga cagtcaacgg aaccactgac gacactagtg 660
cttattcgat attacaaagg acgacggtgg gaattggtca aatgaaaatt caaggtgtgg 720
ttacctgtca gtatttgtgc atggccaggt gtggattgct ctatggatcg agagaatttg 780
gacaagaatg cgtattcaat gagaccatcg agcaatccaa ctacaacacg tattcctccc 840
agtaatactc aaacgagaaa agaacccttn atctagcact gaatcaaaga ggccaatcga 900
gaaaggtcgt cctacg 916
<210>216
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>216
gctatgattg aaaggcaggc gtctag 26
<210>217
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>217
ggtctcattg aatacgcatt cttgtcc 27
<210>218
<211>789
<212>DNA
<213>Diabrotica virgifera
<400>218
gctatgattg aaaggcaggc gtctagacat tgcgatcggc aggcagaata gcaggaaagc 60
aagacaaatc ctaaagatca agcgtcatcg ggtttagacc ggcatacagc atgcgaccgc 120
atgggcataa ggagatcgca gtgatcgcac ccgtatcggc taatagacac agacacagac 180
acggtgtgtt cggtattttt agttagtctg ttcgcgaccg gcgaagaagt agcgcgtgtg 240
tttaaataga gagttatggt aataacgtca acgtgtgttg tgacggtgtt taagatcaac 300
ggtcggcacc ggagtcgaca acgccagtga gcaagcagtg cgacactatg tcccagtcat 360
ggtgaaaacg tttctgggac tgttagctgc ttcaatttgt ggtctcgtat acgctgctcc 420
atagctgact cttgcaataa tctgacccct tttcgaacag atagcacaac ccctacttct 480
tcagaagagt cattgctaga ggatccagca gcacgcaacg aaagaagcac aaatctctct 540
cacgtcactg gtaccgccag aaaaatacaa atgttcatca agaatcgaca tttacaaatt 600
cttcctgacg ggacagtcaa cggaaccact gacgacacta gtgcttattc gatattacaa 660
aggacgacgg tgggaattgg tcaaatgaaa attcaaggtg tggttacctg tcagtatttg 720
tgcatggcca ggtgtggatt gctctatgga tcgagagaat ttggacaaga atgcgtattc 780
aatgagacc 789
<210>219
<211>2176
<212>DNA
<213>Diabrotica virgifera
<400>219
caaaattatt taagtagtgg agtccaaata gactatttct tcttttgggc tttttctgca 60
gcttttgtga cttttccagt agtatcttca tcttcagtga atacaccaat acgtctgcaa 120
atggcttcag cagtagcttt gttgtcacca gtgataacaa taactctgat accagcagcg 180
cggcattgaa caatggagtc aaatacttct ttacgtgggg gatccaacat accaacaaca 240
ccaacgaatg taagattgac ttcatatgtg tagaatttgg ttgaatcgcc aaggtccatt 300
tcgtctggtt tcatggggtt atcagcagtt gctagggcaa gacaacgcaa tgtgtcgcgt 360
ccacaaccat attgagcggt aagatcagtg attctctttt taagagtgct ggtaagtggt 420
actttttgag atccaacacg agcgtgtgta cacctttcca aaacaccttc tggagctcct 480
ttaacgaaga gtttaggtcc attaccaata cgagatggtt tgaggggtgt gcagtaggaa 540
gacatagatt tacgatcacg tgagaattcc aaagtgaatt ccttcttcca tttagtttca 600
atgtcttgtc taacacagat ggcaacctgt ctacgatctc cagttttact gacagagaag 660
ggattcattt tttctgctaa tacaatgaga gcagtttcag tagcttcacc aactttttcg 720
aaagcttgtt tgaattcatt gaaatcaatg gcggagtcat tgcacataat acaaatggta 780
ccaatttcat gtaatgcgtc aaattctgca catttaactt tttgtccttt aaggaatact 840
tcaccaatag gttcataagt ggagccagtg atttcaaatt catggaaaga gctgtcgctg 900
ccttcaactt tatcgaaaat aaacatacgt gagactgaca tttggttggt ggttaaggta 960
ccagttttat cggagcagat gacagatgtg caaccaagag tttctacaga tggaagggac 1020
cttacaatag cgtttttctt agccatacga cgagtaccaa gagcaagaca tgtagtaatg 1080
acagctggta gaccttcagg aatggcagcg acagccaaag ctacagcgat tttgaagtag 1140
tagacagcac ctttaatcca tgaaccacca tgggctgggt cattgaaatg tccaatgtta 1200
atagcccata cagcaacaca gatgactgaa atgactttgg agagttgttc accgaattcg 1260
tccaattttt gttgaagggg agtcttaatt tcttccgttt ctgacatttc agttctgatt 1320
ttaccaatgg cggtgttaag accagttcca ataacaatac cacgtgcttt accagcagca 1380
acattggtac ctgagaaaag aatgtttttc ttgtcttggt tgacagctct tgggtcggga 1440
atggcatcgg tgtgtttgat cacagaaacg gattcaccag tcaggataga ctgatcgata 1500
cggagtgttg ttgagaaaat tttaactaaa cgaatatcag cgggaatttt gtcacccact 1560
gacacttcta ctatatctcc gggtacgatt tctttcgccc ggattttctg aataccggat 1620
ttgtcttgtc ggacaacttt gcccatttct ggttcatatt ctttaagagc ttcaatggcg 1680
gattcagcat ttctttcctg ccatacacct actactgcgt ttgcaataag aattaaaaga 1740
attacaaaag gttctacgaa cgcggtgaat gcgccatcgt gttcttcaaa taaagctaat 1800
acaaaggaaa ttatagcggc taataataaa atcttgacta gaagatcatc aaactgttct 1860
aaaactaatt gccatatgga ttttccttct tccgcaggaa gttcattggg tccatattta 1920
gcttgattct ttttgacttg atcaagtgaa agacctcgtt cttgatcagc gtcgaagtac 1980
ctaagtactt cgtccactgt ttttgcgtga ccatcctcca ttctgcccag ttgtcacttc 2040
gcttgttatc acaaaaatgg tcccagtagt tatcacttga cgaaaacttt ggtggattat 2100
caaaggttaa caacgacacg gtattgttta ggcccccatt taagagtagc acaaaattgt 2160
cacagaagtt tagagc 2176
<210>220
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>220
gctctaaact tctgtgacaa ttttgtgcta ctc 33
<210>221
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>221
gaaatgtcca atgttaatag cccatacagc 30
<210>222
<211>992
<212>DNA
<213>Diabrotica virgifera
<400>222
gctctaaact tctgtgacaa ttttgtgcta ctcttaaatg ggggcctaaa caataccgtg 60
tcgttgttaa cctttgataa tccaccaaag ttttcgtcaa gtgataacta ctgggaccat 120
ttttgtgata acaagcgaag tgacaactgg gcagaatgga ggatggtcac gcaaaaacag 180
tggacgaagt acttaggtac ttcgacgctg atcaagaacg aggtctttca cttgatcaag 240
tcaaaaagaa tcaagctaaa tatggaccca atgaacttcc tgcggaagaa ggaaaatcca 300
tatggcaatt agttttagaa cagtttgatg atcttctagt caagatttta ttattagccg 360
ctataatttc ctttgtatta gctttatttg aagaacacga tggcgcattc accgcgttcg 420
tagaaccttt tgtaattctt ttaattctta ttgcaaacgc agtagtaggt gtatggcagg 480
aaagaaatgc tgaatccgcc attgaagctc ttaaagaata tgaaccagaa atgggcaaag 540
ttgtccgaca agacaaatcc ggtattcaga aaatccgggc gaaagaaatc gtacccggag 600
atatagtaga agtgtcagtg ggtgacaaaa ttcccgctga tattcgttta gttaaaattt 660
tctcaacaac actccgtatc gatcagtcta tcctgactgg tgaatccgtt tctgtgatca 720
aacacaccga tgccattccc gacccaagag ctgtcaacca agacaagaaa aacattcttt 780
tctcaggtac caatgttgct gctggtaaag cacgtggtat tgttattgga actggtctta 840
acaccgccat tggtaaaatc agaactgaaa tgtcaggaac ggaagaaatt aagactcccc 900
ttcaacaaaa attggacgaa ttcggtgaac aactctccaa agtcatttca gtcatctgtg 960
ttgctgtatg ggctattaac attggacatt tc 992
<210>223
<211>2176
<212>DNA
<213>Diabrotica virgifera
<400>223
caaaattatt taagtagtgg agtccaaata gactatttct tcttttgggc tttttctgca 60
gcttttgtga cttttccagt agtatcttca tcttcagtga atacaccaat acgtctgcaa 120
atggcttcag cagtagcttt gttgtcacca gtgataacaa taactctgat accagcagcg 180
cggcattgaa caatggagtc aaatacttct ttacgtgggg gatccaacat accaacaaca 240
ccaacgaatg taagattgac ttcatatgtg tagaatttgg ttgaatcgcc aaggtccatt 300
tcgtctggtt tcatggggtt atcagcagtt gctagggcaa gacaacgcaa tgtgtcgcgt 360
ccacaaccat attgagcggt aagatcagtg attctctttt taagagtgct ggtaagtggt 420
actttttgag atccaacacg agcgtgtgta cacctttcca aaacaccttc tggagctcct 480
ttaacgaaga gtttaggtcc attaccaata cgagatggtt tgaggggtgt gcagtaggaa 540
gacatagatt tacgatcacg tgagaattcc aaagtgaatt ccttcttcca tttagtttca 600
atgtcttgtc taacacagat ggcaacctgt ctacgatctc cagttttact gacagagaag 660
ggattcattt tttctgctaa tacaatgaga gcagtttcag tagcttcacc aactttttcg 720
aaagcttgtt tgaattcatt gaaatcaatg gcggagtcat tgcacataat acaaatggta 780
ccaatttcat gtaatgcgtc aaattctgca catttaactt tttgtccttt aaggaatact 840
tcaccaatag gttcataagt ggagccagtg atttcaaatt catggaaaga gctgtcgctg 900
ccttcaactt tatcgaaaat aaacatacgt gagactgaca tttggttggt ggttaaggta 960
ccagttttat cggagcagat gacagatgtg caaccaagag tttctacaga tggaagggac 1020
cttacaatag cgtttttctt agccatacga cgagtaccaa gagcaagaca tgtagtaatg 1080
acagctggta gaccttcagg aatggcagcg acagccaaag ctacagcgat tttgaagtag 1140
tagacagcac ctttaatcca tgaaccacca tgggctgggt cattgaaatg tccaatgtta 1200
atagcccata cagcaacaca gatgactgaa atgactttgg agagttgttc accgaattcg 1260
tccaattttt gttgaagggg agtcttaatt tcttccgttt ctgacatttc agttctgatt 1320
ttaccaatgg cggtgttaag accagttcca ataacaatac cacgtgcttt accagcagca 1380
acattggtac ctgagaaaag aatgtttttc ttgtcttggt tgacagctct tgggtcggga 1440
atggcatcgg tgtgtttgat cacagaaacg gattcaccag tcaggataga ctgatcgata 1500
cggagtgttg ttgagaaaat tttaactaaa cgaatatcag cgggaatttt gtcacccact 1560
gacacttcta ctatatctcc gggtacgatt tctttcgccc ggattttctg aataccggat 1620
ttgtcttgtc ggacaacttt gcccatttct ggttcatatt ctttaagagc ttcaatggcg 1680
gattcagcat ttctttcctg ccatacacct actactgcgt ttgcaataag aattaaaaga 1740
attacaaaag gttctacgaa cgcggtgaat gcgccatcgt gttcttcaaa taaagctaat 1800
acaaaggaaa ttatagcggc taataataaa atcttgacta gaagatcatc aaactgttct 1860
aaaactaatt gccatatgga ttttccttct tccgcaggaa gttcattggg tccatattta 1920
gcttgattct ttttgacttg atcaagtgaa agacctcgtt cttgatcagc gtcgaagtac 1980
ctaagtactt cgtccactgt ttttgcgtga ccatcctcca ttctgcccag ttgtcacttc 2040
gcttgttatc acaaaaatgg tcccagtagt tatcacttga cgaaaacttt ggtggattat 2100
caaaggttaa caacgacacg gtattgttta ggcccccatt taagagtagc acaaaattgt 2160
cacagaagtt tagagc 2176
<210>224
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>224
gtggttcatg gattaaaggt gctgtctac 29
<210>225
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>225
caccagtgat aacaataact ctgataccag ca 32
<210>226
<211>1023
<212>DNA
<213>Diabrotica virgifera
<400>226
gtggttcatg gattaaaggt gctgtctact acttcaaaat cgctgtagct ttggctgtcg 60
ctgccattcc tgaaggtcta ccagctgtca ttactacatg tcttgctctt ggtactcgtc 120
gtatggctaa gaaaaacgct attgtaaggt cccttccatc tgtagaaact cttggttgca 180
catctgtcat ctgctccgat aaaactggta ctttaaccac caaccaaatg tcagtctcac 240
gtatgtttat tttcgataaa gttgaaggca gcgacagctc tttccatgaa tttgaaatca 300
ctggctccac ttatgaacct attggtgaag tattccttaa aggacaaaaa gttaaatgtg 360
cagaatttga cgcattacat gaaattggta ccatttgtat tatgtgcaat gactccgcca 420
ttgatttcaa tgaattcaaa caagctttcg aaaaagttgg tgaagctact gaaactgctc 480
tcattgtatt agcagaaaaa atgaatccct tctctgtcag taaaactgga gatcgtagac 540
agattgccat ctgtgttaga caagacattg aaactaaatg gaagaaggaa ttcactttgg 600
aattctcacg tgatcgtaaa tctatgtctt cctactgcac acccctcaaa ccatctcgta 660
ttggtaatgg acctaaactc ttcgttaaag gagctccaga aggtgttttg gaaaggtgta 720
cacacgctcg tgttggatct caaaaagtac cacttaccag cactcttaaa aagagaatca 780
ccgatcttac cgctcaatat ggttgtggac gcgacacatt gcgttgtctt gccctagcaa 840
ctgctgataa ccccatgaaa ccagacgaaa tggaccttgg cgattcaacc aaattctaca 900
catatgaagt caatcttaca ttcgttggtg ttgttggtat gttggatccc ccacgtaaag 960
aagtatttga ctccattgtt caatgccgcg ctgctggtat cagagttatt gttatcactg 1020
gtg 1023
<210>227
<211>1929
<212>DNA
<213>Diabrotica virgifera
<400>227
cacttaattt tcagtactgg ggcgactggc aaaaaaatgt ctttgctttc cgcacgatta 60
gctgcctcat tggcaagaaa tgcccctaaa aatgtaacac agattgcggg agctgtcttc 120
cctgctgcat ccgtcgcagc ccggaacttc catgctactc cacaaaacaa aggtgctgaa 180
atttcatcca tccttgaaga gcgcatcctt ggtgctgcac caaaagccaa cctcgatgaa 240
acaggacgag tcttaagtat tggtgacggt atcgcccgtg tatatgggtt gaacaacatc 300
caagccgatg agatggtgga attctcctcc ggtctcaaag gtatggccct taacttggaa 360
cctgacaacg ttggtgttgt agtatttggt aacgacaaac tcattaagga aggtgacatt 420
gtcaagagaa ctggtgccat tgtagatgtg cctgtaggtg accaaatttt gggacgtgta 480
gttgatgcct taggtaaccc aattgatggc aaaggaccat tgaacaccaa acaacgtttc 540
cgtgtaggta tcaaagcccc tggtatcatt ccacgtatct ctgtaagaga acctatgcag 600
tctggaatta aggctgtaga ttctcttgta ccaattggtc gtggtcagcg tgagttgatc 660
attggtgatc gtcaaactgg taaaactgct ttggctattg atacaatcat caaccaaaaa 720
cgattcaacg atgctgaaga cgaaaagaag aaattgtact gcatttacgt cgccatcggt 780
caaaagagat ctactgtggc tcaaatcttg aagcgtctca cagacactgg tgccatcaac 840
tacacaatca ttgtatcagc tactgcatct gatgctgcac ctttgcaata cctcgcccca 900
tactccggat gtgctatggg tgaatttttc agagataatg gcaaacatgc cctcatcatc 960
tatgatgatt tgtccaaaca agccgtagcc taccgtcaga tgtctctgtt gcttcgtcgt 1020
cctccagggc gtgaagccta ccctggtgat gtattctacc ttcactcccg tcttttggaa 1080
cgtgccgcca agatgtctga agcccacggt ggtggttcat tgactgcctt gcccgtaatt 1140
gaaacccaag ctggtgatgt atcagcctac attccaacca atgtcatttc catcactgat 1200
ggacaaatct tcttggaaac tgaattgttc tacaaaggta tcagacctgc cattaacgta 1260
ggtttgtctg tatccagagt aggatcagct gctcaaacca aggccatgaa acaggttgct 1320
ggttccatga aactggaatt ggcccaatac cgtgaagtag ctgcttttgc ccaattcggt 1380
tccgatcttg atgctgctac tcagcaattg ttgaacagag gtgtacgtct tactgaattg 1440
ttgaaacaag gtcaatacgt acccatggct attgaagaac aagtagccat catctactgt 1500
ggtgtcagag gacatttgga caaagttgat ccatcaaaga ttacagtatt tgaaaaacaa 1560
ttctcagaac acattaagac tagccacaaa aacatcttgc agagcattgc caaggaagga 1620
aaaatcacag acgatactga tgcccaactc aagaaagtcg ttcaagattt cttggccagc 1680
ttctctggtt aaatataaat aatacaatta ttattaatac ctaaatcgtc acttttgttg 1740
atgtgatctg taaacgttta agaacttcat gagctgtaat cctttcaaat tagaataatt 1800
aggcaggact cctatgttat ccaataaggc acgtgaaaga attttctttt ctccatttta 1860
caatatttat cgatcattgt tttttaagga tatcttattt gtaataataa aaaataaact 1920
ttatatttt 1929
<210>228
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>228
gtctttgctt tccgcacgat tagc 24
<210>229
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>229
gttgatggca ccagtgtctg tgagac 26
<210>230
<211>799
<212>DNA
<213>Diabrotica virgifera
<400>230
gtctttgctt ccgcacgatt agctgcctca ttggcaagaa atgcccctaa aaatgtaaca 60
cagattgcgg gagctgtctt ccctgctgca tccgtcgcag cccggaactt ccatgctact 120
ccacaaaaca aaggtgctga aatttcatcc atccttgaag agcgcatcct tggtgctgca 180
ccaaaagcca acctcgatga aacaggacga gtcttaagta ttggtgacgg tatcgcccgt 240
gtatatgggt tgaacaacat ccaagccgat gagatggtgg aattctcctc cggtctcaaa 300
ggtatggccc ttaacttgga acctgacaac gttggtgttg tagtatttgg taacgacaaa 360
ctcattaagg aaggtgacat tgtcaagaga actggtgcca ttgtagatgt gcctgtaggt 420
gaccaaattt tgggacgtgt agttgatgcc ttaggtaacc caattgatgg caaaggacca 480
ttgaacacca aacaacgttt ccgtgtaggt atcaaagccc ctggtatcat tccacgtatc 540
tctgtaagag aacctatgca gtctggaatt aaggctgtag attctcttgt accaattggt 600
cgtggtcagc gtgagttgat cattggtgat cgtcaaactg gtaaaactgc tttggctatt 660
gatacaatca tcaaccaaaa acgattcaac gatgctgaag acgaaaagaa gaaattgtac 720
tgcatttacg tcgccatcgg tcaaagagat ctactgtggc tcaaatcttg gagcgtctca 780
cagacactgg tgccatcac 799
<210>231
<211>1519
<212>DNA
<213>Diabrotica virgifera
<400>231
aatttatatc acaagacttc cagttgggag ttgggtcaga gttaattttt taggtcttct 60
attaaaaggg ttgtaatttt aatttaaaaa aatggcatcc aatttagttg cgggagcaaa 120
tcctaaaata caggatataa tgtcgtcttt ggacgatgac aaaacagata tgttggctgc 180
tacaagtgta ttgcagcaaa gagctacaga tataagaaat caacatgtaa actggcaatc 240
ctatttccag tcacaaatga tttcgcagga agactacaac ttcatagtag cttttgatgt 300
gactgatagt gcaaaaagag aagctctcct gaaaagcgac agaaaccaat gtgctcaaac 360
attgttgaac cttttggggc atgtatccaa ggaccaaact ctgcagtaca ttttagtttt 420
ggttgatgat atgttacagg agaacagaag tcgtgtagag atatttcacg aatatgccaa 480
ccaaaagaaa gaatctgttt ggggtccatt tttgaacctt cttaaccgcc aggatggatt 540
tattaccaac atgacttcta ggatcatcgc taaaattgct tgttggtcgc agacacttat 600
ggatcgttct gaccttcatt tttacttgac ctggttaaaa gaccaactaa aaactcagaa 660
caacgaatac atccaatcgg ttgcaagatg ccttcaaatg atgctccgaa ttgacgacta 720
ccgttttgcc ttcgtgtccg tcgatggaat atccactctg ttgtcggtac tctctggaag 780
agtaaatttc caagttcagt atcagctgat attctgcttg tgggtactca ctttcaaccc 840
gttgttagcc gaaaagatga acaaattcaa cgttattcct atattggcag atattttgag 900
cgattcggta aaggagaaag taaccagaat tattttagct gttttcagga atttgatcga 960
aaaacccgaa gatcaacaag tttcaaaaga acattgtata gctatggtgc aatgcaaagt 1020
attgaaacaa ttggccattt tagaacagcg caagttcgat gatgaagatg tgacagctga 1080
tgtcgaattt ctaactgaaa aactacagag ttctgttcag gatctgagtt ccttcgatga 1140
atattcaact gaagtcaaat ctggacgttt ggaatggtct ccagtacaca agagcaagtt 1200
ctggcgggaa aatgcgcagc gcctcaacga gaaaaactac gaattactcc gtattctcat 1260
tcatttgtta gaaaccagca aggacccctt ggtattgagc gtagctagtt tcgatattgg 1320
agagtatgtt cgccattatc ctcgcggcaa acacataatc gagcagttgg gaggaaagca 1380
attagttatg caactcttag cccacgaaga tcccaatgta cgatatgaag ctctgttggc 1440
agtccaaaaa ttgatggtcc acaattggga ataccttggt cgtcaacttg aaaaagagca 1500
aagtacagat aaaaacgcg 1519
<210>232
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>232
gtttagatca agaattgaaa atcatcggag c 31
<210>233
<211>21
<212>DNA
<213>Diabrotica virgifera
<400>233
gcacctccac caccgctctt c 21
<210>234
<211>490
<212>DNA
<213>Diabrotica virgifera
<400>234
gtttagatca agaattgaaa atcatcggag cctttggtct ccgaaacaaa cgtgaagtat 60
ggagagtaaa atacactcta gccaaaatcc gtaaggccgc cagagaactg cttactctag 120
aagagaaaga acccaaaagg ttgtttgaag gtaatgcact cctacgtcgt ttggttcgta 180
ttggagtact agacgagaac agaatgaagc tcgattacgt attgggtctc aagattgaag 240
atttcttgga aagacgtctg caaacacaag tcttcaaatc tggtctagct aagtcaatcc 300
atcatgctag ggtattgatc agacaacgac acattcgggt ccgcaaacaa gttgtgaaca 360
ttccctcctt catcgtccgt ttggattcac aaaaacacat cgacttctct ctgaaatcac 420
ctttgggagg cggtcgtcca ggacgtgtta agaggaagaa cctcaccaag aagagcggtg 480
gtggaggtgc 490
<210>235
<211>1850
<212>DNA
<213>Diabrotica virgifera
<400>235
gtgaactgaa ctgtgccggt gtgatttccc ttttaaataa aagaaaagtt caaaatcgtg 60
atcgaaaaaa ccttttatta tattaataca attttttaaa atggctgcaa tgtctgtgat 120
aggtatcgat ttgggaaatg aatcctgtta tgtagctgtc gcaaaggctg gtggaatcga 180
aaccattgca aatgactaca gtttaagggc tactccatca tgcgttgctt tttctggaaa 240
gaaccgcata ttgggagttg cggcgaaaaa tcagcaagtc accaatatga agaacactgt 300
atatgggcta aaaaggctgt taggtagaaa gtttagggat cctcatgtca aaaaagaaat 360
tcagttttta ccatatacag ttgtagaaga aaaaaacggg ggtattggaa ttagggtaaa 420
ttatttaaat gaagaacata aattttcacc agaacaatgt ttggccatgt tgttaacaaa 480
attaaaagat agtgctatga cagctctaca aactcccata aatgattgtg ttatatcagt 540
tccttcttac tttacaaaca atgagaggaa ggcactatta gattctgcag ccatagcagg 600
tcttaatact ctaaggttat ttaatgaaac aacagctacg gccttgtcat atggcattta 660
caagcaggat ttaccagctg tcgaagaaaa gcctcgtaat attatttttg tcgattgtgg 720
ccattcatcc ttacaagtat ttgcagttgc atttaataag ggcaaattga agatgcttac 780
cactgctgca gatcccaatt taggtggtag ggactttgat ctcatcattg ctgagcattt 840
ttgcaaacaa ttccaaacca aatacaacat ggatgcaaaa tctaatccaa gagcttttct 900
aagattgcta acggaggtag aaaagttgaa gaagcagatg tctgcaaatt ctacaacctt 960
accactcaac atagaatgtt tcatgaacga taaagatgtg tccagtgaca tgaagagagc 1020
agatatggaa actttatgtg ctcatctgtt tgaaagagtt gaagtaagct taaagcaatg 1080
tctcaaacaa tcaggattgt cattggatga catttacgct gtagaaatag tgggcggatc 1140
tagcagagta cctgctatta aacaattaat agagaaagta ttccacaaag taccaagtac 1200
tacattaaat caagatgaag ctgtgagccg tggttgtgct ctacagtgtg ctatgctatc 1260
tcctgctata agagttcggg attttagcgt tacagatgta caggcgtacc cgatctctgt 1320
agcatgggat gcaagtccag gaggagaatc tgctggggag atagaagcat tcccacttaa 1380
ccatccggtt ccattctcga gaatgttgac attctataga caggaaccat tcaccatcag 1440
agcaaaatac agtggcaaca tcccgtatcc cgatcatgat ataggtacct gggttataaa 1500
agacataaaa cctaactctg aaggaaagcc gcagaaagtg aaagtcaagg tccgtgtaaa 1560
cctccatgga atcatgtcga tatcgagtgc tagtttgtac gaagcaaaag agtcagttga 1620
accagaaagt ccggaagaac aacagaagga ggcacaggtg aacagtaacg accaacagaa 1680
tggcggtgtg cagactaacg agagcggcga atcgatggaa acgacaaacg aaggaacagg 1740
agccaacagt ggagaaggtg ctgttcctga ggtaggctcc ggcaccagct ggacgaagaa 1800
aatatctgcc tggttcagcg gggaaggaag cgataaaaag aaaaaagcat 1850
<210>236
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>236
ctgtcgcaaa ggctggtgga atc 23
<210>237
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>237
ctcttcatgt cactggacac atctttatcg t 31
<210>238
<211>862
<212>DNA
<213>Diabrotica virgifera
<400>238
ctgtcgcaaa ggctggtgga atcgaaacca ttgcaaatga ctacagttta agggctactc 60
catcatgcgt tgctttttct ggaaagaacc gcatattggg agttgcggcg aaaaatcagc 120
aagtcaccaa tatgaagaac actgtatatg ggctaaaaag gctgttaggt agaaagttta 180
gggatcctca tgtcaaaaaa gaaattcagt ttttaccata tacagttgta gaagaaaaaa 240
acgggggtat tggaattagg gtaaattatt taaatgaaga acataaattt tcaccagaac 300
aatgtttggc catgttgtta acaaaattaa aagatagtgc tatgacagct ctacaaactc 360
ccataaatga ttgtgttata tcagttcctt cttactttac aaacaatgag aggaaggcac 420
tattagattc tgcagccata gcaggtctta atactctaag gttatttaat gaaacaacag 480
ctacggcctt gtcatatggc atttacaagc aggatttacc agctgttgaa gaaaagcctc 540
gtaatattat ttttgtcgat tgtggccatt catccttaca agtatttgca gttgcattta 600
ataagggcaa attgaagatg cttaccactg ctgcagatcc caatttaggt ggtagggact 660
ttgatctcat cattgctgag catttttgca aacaattcca aaccaaatac aacatggatg 720
caaaatctaa tccaagagct tttctaagat tgctaacgga ggtagaaaag ttgaagaagc 780
agatgtctgc aaattctaca accttaccac tcaacataga atgtttcatg aacgataaag 840
atgtgtccag tgacatgaag ag 862
<210>239
<211>1188
<212>DNA
<213>Diabrotica virgifera
<400>239
tagaatttca gacttttgac aaattaaaat tttgaacaat ttattttatt aatttcaatc 60
acattgcagt tttaaaaaga attaaaaatg gtatccctaa atcccgtaag aattctcaag 120
caagaagccg aggaagaaag ggcagagatt gcccgactca gtagttttgt aggtgctata 180
gctataggag atttggttag aagcaccttg ggaccaaaag gaatggataa aattttagta 240
tccagtggta gatctgcagg atcagttgaa gttactaacg acggagcaac tatcctaaaa 300
tcggtgggtg ttgataatcc tgctgctaaa attttggtgg atatgtcaaa agtccaggat 360
gatgaagtag gagatggcac cacatcagtg acagtattag catctgaact acttaaagaa 420
gcagaaaaac ttgtagaaca gaaaattcac ccacaaacaa tcattgccgg ttggaggaaa 480
gcagtagata ttgccagaaa agctcttcta gaaactgcca aagacaacag ctctgattca 540
gaaaagttca gagaagatct gatgaacatt gccagaacta cactcagctc aaagattctt 600
tcacaacata aagaatattt tgccaaactg gcagtagatg ctgtgctgag attgaaaggt 660
acaggtgatt tacaatccat ccagctgatt aagaaaactg gtggtacttt ggaagattcc 720
tttttggatg aaggtttttt attggacaaa aaacctggtg tacatcaacc aaagagagta 780
gaaaatgcaa aaatcctgat agccaacact cctatggaca cagataaaat caaagtattt 840
ggttctcaca ttaaggtaga ttcaatggct aaaattgcag agctggaatc tgcagaaaag 900
gaaaaaatga aagataaagt gaacaaaatt cttaaacata atgctaatgt atttattaat 960
agacagttga tttacaatta tcctgaacaa ttgtttgctg atgcaggagt tatggctatt 1020
gaacatgcag attttgatgg aattgaaagg ctagcacttg tcacaggagg agagattgtc 1080
tcaacatttg accatccaga attggtaaaa cttggaactt gtaagcttat tgaacaaatc 1140
atgattggag aagatatcct gctccgtttc agtggtgttg ctcttggg 1188
<210>240
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>240
ggtgggtgtt gataatcctg ctgct 25
<210>241
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>241
caagagcaac accactgaaa cggag 25
<210>242
<211>884
<212>DNA
<213>Diabrotica virgifera
<400>242
ggtgggtgtt gataatcctg ctgctaaaat tttggtggat atgtcaaaag tccaggatga 60
tgaagtagga gatggcacca catcagtgac agtattagca tctgaactac ttaaagaagc 120
agaaaaacct gtagaacaga aaattcaccc acaaacaatc attgccggtt ggaggaaagc 180
agtagatatt gccagaaaag ctcttctaga aactgccaaa gacaacagct ctgattcaga 240
aaagttcaga gaagatctga tgaacattgc cagaactaca ctcagctcaa agattctttc 300
acaacataaa gaatattttg ccaaactggc agtagatgct gtgctgagat tgaaaggtac 360
aggtgattta caatccatcc agctgattaa gaaaactggt ggtactttgg aagattcctt 420
tttggatgaa ggttttttat tggacaaaaa acctggtgta catcaaccaa agagagtaga 480
aaatgcaaaa atcctgatag ccaacactcc tatggacaca gataaaatca aagtatttgg 540
ttctcacatt aaggtagatt caatggctaa aattgcagag ctggaatctg cagaaaagga 600
aaaaatgaaa gataaagtga acaaaattct taaacataat gctaatgtat ttattaatag 660
acagttgatt tacaattatc ctgaacaatt gtttgctgat gcaggagtta tggctattga 720
acatgcagat tttgatggaa ttgaaaggct agcacttgtc acaggaggag agattgtctc 780
aacatttgac catccagaat tggtaaaact tggaacttgt aagcttattg aacaaatcat 840
gattggagaa gatatcctgc tccgtttcag tggtgttgct cttg 884
<210>243
<211>1188
<212>DNA
<213>Diabrotica virgifera
<400>243
tagaatttca gacttttgac aaattaaaat tttgaacaat ttattttatt aatttcaatc 60
acattgcagt tttaaaaaga attaaaaatg gtatccctaa atcccgtaag aattctcaag 120
caagaagccg aggaagaaag ggcagagatt gcccgactca gtagttttgt aggtgctata 180
gctataggag atttggttag aagcaccttg ggaccaaaag gaatggataa aattttagta 240
tccagtggta gatctgcagg atcagttgaa gttactaacg acggagcaac tatcctaaaa 300
tcggtgggtg ttgataatcc tgctgctaaa attttggtgg atatgtcaaa agtccaggat 360
gatgaagtag gagatggcac cacatcagtg acagtattag catctgaact acttaaagaa 420
gcagaaaaac ttgtagaaca gaaaattcac ccacaaacaa tcattgccgg ttggaggaaa 480
gcagtagata ttgccagaaa agctcttcta gaaactgcca aagacaacag ctctgattca 540
gaaaagttca gagaagatct gatgaacatt gccagaacta cactcagctc aaagattctt 600
tcacaacata aagaatattt tgccaaactg gcagtagatg ctgtgctgag attgaaaggt 660
acaggtgatt tacaatccat ccagctgatt aagaaaactg gtggtacttt ggaagattcc 720
tttttggatg aaggtttttt attggacaaa aaacctggtg tacatcaacc aaagagagta 780
gaaaatgcaa aaatcctgat agccaacact cctatggaca cagataaaat caaagtattt 840
ggttctcaca ttaaggtaga ttcaatggct aaaattgcag agctggaatc tgcagaaaag 900
gaaaaaatga aagataaagt gaacaaaatt cttaaacata atgctaatgt atttattaat 960
agacagttga tttacaatta tcctgaacaa ttgtttgctg atgcaggagt tatggctatt 1020
gaacatgcag attttgatgg aattgaaagg ctagcacttg tcacaggagg agagattgtc 1080
tcaacatttg accatccaga attggtaaaa cttggaactt gtaagcttat tgaacaaatc 1140
atgattggag aagatatcct gctccgtttc agtggtgttg ctcttggg 1188
<210>244
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>244
ctcactctga tggtgtaatc actatggaaa tc 32
<210>245
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>245
gtcttctaca aatgctgatt tcaaatggtc t 31
<210>246
<211>820
<212>DNA
<213>Diabrotica virgifera
<400>246
ctcactctga tggtgtaatc actatggaaa tcgtgggatg cagaccttcc gattctggaa 60
aatactcctg cgttgctaca aacgaacacg gcgtagacga aacatcttgt gtagttattg 120
tagaaggaca aaccagcaca ccagaacaac aagaactagc caacaaatta ctctattcag 180
gagacaggaa gtacattgaa catcctataa agccagctcc aattcctgta actgtgcgaa 240
aaccaatacc ctcatcaaat cctcaccctc tacaaccgaa atctaacaat cctagcacaa 300
atagtttagc gcattcttca tccacactca gtgttggaga tggagacaag aggacgccta 360
ggaaatatgg tagattagat tctactggaa gtccaaatag atcaagaagc gcaactaaag 420
aattagcact gcctgatgac tcaacaatgt acgccccaca atttaccaaa aatctcacag 480
acttaaccat caatgatggt gaaagtctaa ccttgactgc acacgtaaag ggagatccag 540
atcctcaaat tgtttggacc aaaaatggaa aagccttgag ttcctctgaa gttgttgacc 600
tcaaatacaa gaacggaata gcgaaattac acataaatga agtataccct gaagatgaag 660
gagaatatgt gtgcagagca accaactctg taggaacctc tgagaccaaa tgcaaactaa 720
ccattaaacc aatggccaat gccaccaacg gcaagaaaaa atcctcagaa gacaaacccc 780
caagaatagt agaccattga aatcagcatt tgtagaagac 820
<210>247
<211>815
<212>DNA
<213>Diabrotica virgifera
<400>247
gttataccag aaaaagaaga aggtagtcct tcggaagtaa aacaagtgct gcaggatgtg 60
gatactgaag atttgtacac taaatataaa aaacttcaac aacagttgga gttcttggag 120
gttcaagaag agtacattaa agatgagcaa aggaatctca aaaaggagta tttacatgct 180
caggaagaag tgaagcgtat ccagtctgtc ccgcttgtta ttggacagtt tttagaagct 240
gtagatcaaa acactggcat tgttggctca actacaggtt caaattatta tgttagaatc 300
ttatcaacaa ttgatagaga actcttaaaa ccttctgcta gtgttgctct tcataaacac 360
agcaatgcct tagtagatgt cctaccacca gaggcagatt cttcaataag catgctccag 420
gctgatgaaa aaccagatgt tcaatacagt gacattggag gtatggatat gcagaaacaa 480
gaaattaggg aagctgtaga gttacctttg actcacttcg aattgtataa acagattggt 540
attgatcccc ccagaggtgt gttgatgtat ggacctcctg gatgcgggaa gactatgttg 600
gccaaagctg ttgctcatca tactacagct gcctttattc gtgtagtcgg atcagaattc 660
gtacagaaat atcttggtga aggtcctcga atggtgagag acgtgttccg tctagcaaaa 720
gaaaattctc cagcaatcat ctttattgat gaaattgatg caatcgctac caaacgtttt 780
gatgcccaga caggtgctga tcgtgaagtc cagag 815
<210>248
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>248
cttcaacaac agttggagtt cttggagg 28
<210>249
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>249
ctctggactt cacgatcagc acctg 25
<210>250
<211>722
<212>DNA
<213>Diabrotica virgifera
<400>250
cttcaacaac agttggagtt cttggaggtt caagaagagt acattaaaga tgagcaaagg 60
aatctcaaaa aggagtattt acatgctcag gaagaagtga agcgtatcca gtctgtcccg 120
cttgttattg gacagttttt agaagctgta gatcaaaaca ctggcattgt tggctcaact 180
acaggttcaa attattatgt tagaatctta tcaacaattg atagagaact cttaaaacct 240
tctgctagtg ttgctcttca taaacacagc aatgccttag tagatgtcct accaccagag 300
gcagattctt caataagcat gctccaggct gatgaaaaac cagatgttca atacagtgac 360
attggaggta tggatatgca gaaacaagaa attagggaag ctgtagagtt acctttgact 420
cacttcgaat tgtataaaca gattggtatt gatcccccca gaggtgtgtt gatgtatgga 480
cctcctggat gcgggaagac tatgttggcc aaagctgttg ctcatcatac tacagctgcc 540
tttattcgtg tagtcggatc agaattcgta cagaaatatc ttggtgaagg tcctcgaatg 600
gttagagacg tgttccgtct agcaaaagaa aattctccag caatcatctt tattgatgaa 660
attgatgcaa tcgctaccaa acgttttgat gcccagacag gtgctgatcg tgaagtccag 720
ag 722
<210>251
<211>1324
<212>DNA
<213>Diabrotica virgifera
<400>251
tttaaaatta aaatataaat agaagagaat tgtgtttgta taattgttta aaattaaaat 60
aatttaataa tggaaaacga aggcgaagct gtaacagaac agaagcgtct gttgtgttgt 120
tttaaatcgg aaaatggaga agtcgccggt gatatgatgg atctccccat agactgttcc 180
ttacagcagc tcacgttaat ttgtaatgct ttgttaaaac aggaagaacc agtaccatac 240
ttattttacg ttaacgaaaa cgaaataacc catactttgg aaaaagcact aaatataagg 300
gaattaaata cagaaggtgt tgtagatatc atttatcaac aacaagcagt gtttagggta 360
cgccctgtaa caaggtgtac cagctcaata ccaggtcatg cagaagcagt tatttcagtt 420
agttttagtc cagacggtaa acatttagca agtggatctg gtgatacaac agtcaggttt 480
tgggatgttg atacgcaatc tccgttatat acttgtgaag gtcataaaaa ttgggtgttg 540
tgtatagctt ggtcctctga tagtactaaa ttggcttctg cttgtaaaga tgggaaaatt 600
atcatatggg atccttttac aggaaagcaa ataggtaaaa cgttaacggg acataaacag 660
tggattacta gtttaagctc gggagcctta tcataaaaac cctgaatgta gatatttggc 720
aagttcttca aaagatggag atgtaaggat atgggatact gtactcagca atacattttt 780
ttgtatatct ggtcatacaa agagtgtaac aatggtgaaa tggggtggag caggtctcat 840
ctattcagcc tcccaagaca gaacagttaa agtatggaga gctaaagatg gtgtactatg 900
taggacatta gaaggacatg cccattgggt taatacatta gctttaaata ctgactacat 960
tttaaggata ggagcatttg atcccgttaa agattcaaat aaagacacat taatgccaga 1020
caagaaaaaa tctcaggact ttgccctcaa acgatactat gaagttacag aatctattgg 1080
agaaagatta gtatcgggtt ctgatgattt cacattattt ctttggaatc ctgataaaga 1140
caagaagcct ttagctaggc taacaggtca ccaacaatta gtcaatgacg tgaaattttc 1200
acctgatggt agaatattag cttcagcatc tttcgataaa tcaatcaaat tgtgggaggc 1260
aaaacaggaa agtttatttg taccctacgt ggacatgttc aggctgtgta catggtatca 1320
tttt 1324
<210>252
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>252
gaaaacgaag gcgaagctgt aacagaac 28
<210>253
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>253
gctccacccc atttcaccat tgttacac 28
<210>254
<211>757
<212>DNA
<213>Diabrotica virgifera
<400>254
gaaaacgaag gcgaagctga acagaacaga agcgtctgtt gtgttgtttt aaatcggaaa 60
atggagaagt cgccggtgat atgatggatc tccccataga ctgttcctta cagcagctca 120
cgttaatttg taatgctttg ttaaaacagg aagaaccagt accatactta ttttacgtta 180
acgaaaacga aataacccat actttggaaa aagcactaaa tataagggaa ttaaatacag 240
aaggtgttgt agatatcatt tatcaacaac aagcagtgtt tagggtacgc cctgtaacaa 300
ggtgtaccag ctcaatacca ggtcatgcag aagcagttat ttcagttagt tttagtccag 360
acggtaaaca tttagcaagt ggatctggtg atacaacagt caggttttgg gatgttgata 420
cgcaatctcc gttatatact tgtgaaggtc ataaaaattg ggtgttgtgt atagcttggt 480
cccctgatag tactaaattg gcttctgctt gtaaagatgg gaaaattatc atatgggatc 540
cttttacagg aaagcaaata ggtaaaacgt taacgggaca taaacagtgg attactagtt 600
taagctggga gccttatcat aaaaaccctg aatgtagata tttggcaagt tcttcaaagg 660
atggagatgt aaggatatgg gatactgtcc tcagcaacac atttttttgt atatctggtc 720
atacaaagag tgtaacaatg gtgaaatggg gtggagc 757
<210>255
<211>794
<212>DNA
<213>Diabrotica virgifera
<400>255
caaattatca acaaaacaga cgccattttg ctaaaattga aatatccaac aaagtagaaa 60
gagattttaa ataaatctaa aacatccaaa cttttttttg ggaacgtatc ggaagtaatg 120
tgtctgtgat aaatagtaaa aaatattaaa gcgatatttt cgtcgaaact gatatgtatt 180
aaatttatct tttgtgttat taaagagagt taaacgtagc taaagaagaa aaactattag 240
tgatttaaac atgagtacga aagatgatga atacgattat ttatttaaag ttgtccttat 300
tggtgattct ggtgtaggaa aaagtaactt attgtcaaga tttactagaa atgaattcaa 360
tttggagtct aaatctacta taggtgtcga attcgctacc agaagtatac aggtggatgg 420
taaaactatt aaagcacaaa tatgggacac ggcaggtcaa gagagatacc gagcaatcac 480
ggcggcctat tatcgtggtg cagtcggtgc tctactcgtc tacgatatcg ccaaacatct 540
gacatacgaa aacgttgaac gttggttgcg cgaattgcgc gaccacgcag atcagaacat 600
tgtgatcatg ttggtcggaa acaaatccga tctgaggcat ttgcgcgccg tgctgacaga 660
agaagctaag gctttcgccg aaagaaacgg cctcagcttc atcgagactt cagccctaga 720
ttcgaccaat gtcgataatg ctttccaaaa tatactcaca gagatctata gaattgtttc 780
ccaaaaacag atca 794
<210>256
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>256
ggaacgtatc ggaagtaatg tgtctgtg 28
<210>257
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>257
cacaatgttc tgatctgcgt ggtcg 25
<210>258
<211>504
<212>DNA
<213>Diabrotica virgifera
<400>258
ggaacgtatc ggaagtaatg tgtctgtgat aaatagtaaa aaatattaaa gcgatatttt 60
cgtcgaaact gatatgtatt aaatttatct tttgtgttat taaagagagt taaacgtagc 120
taaagaagaa aaactattag tgatttaaac atgagtacga aagatgatga atacgattat 180
ttatttaaag ttgtccttat tggtgattct ggtgtaggaa aaagtaactt attgtcaaga 240
tttactagaa atgaattcaa tttggagtct aaatctacta taggtgtcga attcgctacc 300
agaagtatac aggtggatgg taaaactatt aaagcacaaa tatgggacac ggcaggtcaa 360
gagagatacc gagcaatcac ggcggcctat tatcgtggtg cagtcggtgc tctactcgtc 420
tacgatatcg ccaaacatct gacatacgaa aacgttgaac gttggttgcg cgaattgcgc 480
gaccacgcag atcagaacat tgtg 504
<210>259
<211>1180
<212>DNA
<213>Diabrotica virgifera
<400>259
atttttgggt gtttctttga ttgaacaaaa attacaagcg ttttaaattc actaaatttg 60
ctttgaaata tacaaatagt taattctagg aaaatatata acctacatac agaatcatgt 120
cttcccgcaa aaccgtaagc cgccgtggta ccacaaagaa acgtgcccaa agagccacat 180
ccaatgtatt cgcaatgttt gatcaggctc agattgctga gttcaaagaa gccttcaata 240
tgatcgacca gaaccatgat ggttttgtag ataaagaaga tctgcatgat atgcttgctt 300
ccttaggtaa aaacccaact gatgactatc tagatggcat gatgaatgaa gctcctggtc 360
ccataaactt caccatgttc ttaactctct ttggagaacg tctacaaggc acagacccag 420
aagacgtaat taaaaacgct tttggctgct ttgacgaaga caacaatggt gtcctcaacg 480
aagaacgtct cagggagctc ctcacgtcca tgggtgatag attcactgac gatgaagttg 540
acgagatgta cagggaggct cctattaaga atggcttgtt tgattatgtt gaattcaccc 600
gcattttaaa gcacggggct aaggacaagg atgagcaata agagacgaat tgatgatgaa 660
aggatttgta attaatatgg aaagatgtct tagtttgaat gatttggatt ttcattccat 720
ttttgtgatt agaaatatat gaaattcatc atactagacc atcaagtctt gtccgttgca 780
gtatcttctg cacatagaca tgtcatcctt gaacaaaact gcaaaaatgg atttgaaaaa 840
tggtaggttt tgaatgaatt aacagtctaa ttatatagac atcttgttat tgtacttaac 900
atctcttgct tgttatttta aagtattcct tgaatgtttt gaatagaaaa cgacattttg 960
tatattaaaa ctacaaatcc aattgcatgt tatcattata agatcgatat ttttccttca 1020
aagtattttt agcattgtta gtcagcttat tttgggtttt tacaactttt ggcaacgttt 1080
tatttattca taagatttat tgtaattata aattttatac ctttatatat catgtaatta 1140
ttcattaaaa tattgaacca aaaaaaaacc cacgcgtccg 1180
<210>260
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>260
gagccacatc caatgtattc gcaatg 26
<210>261
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>261
caacggacaa gacttgatgg tctagtatga 30
<210>262
<211>607
<212>DNA
<213>Diabrotica virgifera
<400>262
gagccacatc caatgtattc gcaatgtttg atcaggctca gattgctgag ttcaaagaag 60
ccttcaatat gatcgaccag aaccatgatg gttttgtaga taaagaagat ctgcatgata 120
tgcttgcttc cttaggtaaa aacccaactg atgactatct agatggcatg atgaatgaag 180
ctcctggtcc cataaacttc accatgttct taactctctt tggagaacgt ctacaaggca 240
cagacccaga agacgtaatt aaaaacgctt ttggctgctt tgacgaagac aacaatggtg 300
tcctcaacga agaacgtctc agggagctcc tcacgtccat gggtgataga ttcactgacg 360
atgaagttga cgagatgtac agggaggctc ctattaagaa tggcttgttt gattatgttg 420
aattcacccg cattttaaag cacggggcta aggacaagga tgagcaataa gagacgagtt 480
gatgatgaaa ggatttgtaa ttaatatgga acgatgtctt agtttgaatg atttggattt 540
tcattccatt tttgtgatta gaaatatatg aaattcatca tactagacca tcaagtcttg 600
tccgttg 607
<210>263
<211>966
<212>DNA
<213>Diabrotica virgifera
<400>263
gatctagtga ccagccttga agctatttct acacagagtg gtatagtgtc tggtgtagtt 60
gataatctca caagagccat gactcgattg tcggatagtc gtgcttctct catcttatct 120
gatggtgata ttggattcgt tgattaccaa acacgaatgg tggactgtgc gaagagtata 180
gctaaaatcg ccggagaaat tgctagcaaa gctgccactg accctcagaa ggtggctcaa 240
ttatctgcag atcttgcgca caaatatgca caactatctg gcgatagtat tggagctgca 300
gcagctgcca ctaatgccga agttgcaatc agactaaggg aagttgttca acaactgggt 360
ggcgcctgcg tagaactcgt ccaaacagga ggccagtgct tagtccgaaa agatgacgta 420
ctcttgcgag aagtaggaga ttgctcacgc aacgtaactg agaaagtttc ccgtgttctt 480
gccacattac aaaacgaatc cagaggtacc caagcttgca tcaatgcagc ttccaccgta 540
tctggtatca tcggcgattt agaaactacc atcatgtttg ccactgccgg aaatctcaat 600
cccgaaagcg aacatgaatc gttcgctaat cacagagaga atatattgaa gactgctaag 660
gcgttggtag aggatactaa gactttggta gctggcgcag cttcatcaca agaacaactg 720
gctgtagctg ctcaaaattc tgttgcgacc atagtacaat tagccgaagt agtgaaattc 780
ggagcagcca gcttaggcgt tgacaatcca gattcccaag tgatgcttat caacgcagta 840
cgtgacgttg ccagtgctct tggtgacttg attcaagcta ctaaggctgc tagcggcaag 900
cccatcaacg atccggccat ggctcattta aaagacagcg caaaggtgac ggattctgaa 960
actgat 966
<210>264
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>264
ggtgtagttg ataatctcac aagagccatg 30
<210>265
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>265
cagtttcaga atccgtcacc tttgcg 26
<210>266
<211>913
<212>DNA
<213>Diabrotica virgifera
<400>266
ggtgtagttg ataatctcac aagagccatg actcgattgt cggatagtcg tgcttctctc 60
atcttatctg atggtgatat tggattcgtt gattaccaaa cacgaatggt ggactgtgcg 120
aagagtatag ctaaaatcgc cggagaaatt gctagcaaag ctgccactga ccctcagaag 180
gtggctcaat tatctgcaga tcttgcgcac aaatatgcac aactatctgg cgatagtatt 240
ggagctgcag cagctgccac taatgccgaa gttgcaatca gactaaggga agttgttcaa 300
caactgggtg gcgcctgcgt agaactcgtc caaacaggag gccagtgctt agtccgaaaa 360
gatgacgtac tcttgcgaga agtaggagat tgctcacgca acgtaactga gaaagtttcc 420
cgtgttcttg ccacattaca aaacgaatcc agaggtaccc aagcttgcat caatgcagct 480
tccaccgtat ctggtatcat cggcgattta gaaactacca tcatgtttgc cactgccgga 540
aatctcaatc ccgaaagcga acatgaatcg ttcgctaatc acagagagaa tatattgaag 600
actgctaagg cgttggtaga ggatactaag actttggtag ctggcgcagc ttcatcacaa 660
gaacaactgg ctgtagctgc tcaaaattct gttgcgacca tagtacaatt agccgaagta 720
gtgaaattcg gagcagccag cttaggcgtt gacaatccag attcccaagt gatgcttatc 780
aacgcagtac gtgacgttgc cagtgctctt ggtgacttga ttcaagctac taaggctgct 840
agcggcaagc ccatcaacga tccggccatg gctcatttaa aagacagcgc aaaggtgacg 900
gattctgaaa ctg 913
<210>267
<211>846
<212>DNA
<213>Diabrotica virgifera
<400>267
ctctctttga gttgtcgctt ttcgaggtat ttagttgcag gcgtggtgta tacgttgaaa 60
tagtgatttt tgttaaaagt gagtaaatat ggcatcgaaa tcaaaaaaag ggtcaacacc 120
gttagcttca cagcggccgg cgagcccctt aagtcctacc agacattcta gattacagga 180
gaagcatgaa cttcagaatc ttaacgaccg tttggcggga tatatagatc gagtaaggta 240
tttagaaggt gaaaacaaca gattaacgag ggaaatacaa agtacccagg aaacagtaac 300
aagggaagtt tcaaacatta aatctatgta tgaccatgaa ttatcagatg ctagaaaact 360
attagacgag acccaccgtg aaaaagcacg tttagagata gatgttaaac gtcttttaga 420
agagaatgac gaactcaagt ctgagttagc aaagaagaac aaggatttgg ctctagctga 480
gaattctgcc aggatatacg agaccagatg taacgagtta cagctcaaag caaatcaagc 540
ggctgctgat gctaagaaag ctattgcaga tgctaaggaa cttgagaaag aacgtgataa 600
gctacgcaaa cttcttgata atcatcgtaa acagttagaa gaagaatcat tagcgagagt 660
ggaagtcgaa aatgccaacc aaagtcttcg agaagagctg tcctttaagg atcagatcca 720
tcaacaacag ttgacagaaa ctcgtactcg tcgtcaagta gaaatcagcg aaatcgacgg 780
tcgcctggca gaaaaatatg aggctaagct tcaagaggct ctacaagaac tcagagatca 840
atatga 846
<210>268
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>268
gagaagcatg aacttcagaa tcttaacgac c 31
<210>269
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>269
gatttcgctg atttctactt gacgacgag 29
<210>270
<211>595
<212>DNA
<213>Diabrotica virgifera
<400>270
gagaagcatg aacttcagat cttaacgacc gtttggcggg atatatagat cgagtaaggt 60
atttagaagg tgaaaacaac agattaacga gggaaacaca aagtacccag gaaacagtaa 120
caagggaagt ttcaaacatt aaatctatgt atgaccatga attatcagat gctagaaaac 180
tattagacga gacccaccgt gaaaaagcac gtttagagat agatgttaaa cgtcttttag 240
aagagaatga cgaactcaag tctgagttag caaagaagaa caaggatttg gctctagctg 300
agaattctgc caggatatac gagaccagat gtaacgagtt acagctcaaa gcaaatcaag 360
cggctgctga tgctaagaaa gctattgcag atgctaagga acttgagaaa gaacgtgata 420
agctacgcaa acttcttgat aatcatcgta aacagttaga agaagaatca ttggcgagag 480
tggaagtcga aaatgccaac caaagtcttc gagaagagct gtcctttaag gatcagatcc 540
atcaacaaca gttgacagaa actcgtactc gtcgtcaagt agaaatcagc gaatc 595
<210>271
<211>901
<212>DNA
<213>Diabrotica virgifera
<400>271
tcaacacgtg tgaattaaaa caaattcaaa aacaaaaatg tccatccaag aaaaagtttt 60
aatgaaaaaa ataaaaaaga gggaaaagca gaaattaaaa tttgttcaaa agaaagagtc 120
tgaaaagagc aaagaagttt tagaaacaga tctaccagag aaggcaaaag tgggaaatgg 180
cttgaaacgc ttgcagagca acgatgaagg accttctaaa aaaaaaaaga agaaaaataa 240
aaagaagaaa gagaaaatag tcgaagagga agatacagac gaagaacaac cagaggaaga 300
tgaaattgag tctgacattg aagatcaaga gattgacaat ggtgaagaag atacagatga 360
aaaatctgat ttaggaaaca aattaccagg atccagtgct acattagaaa ttctcagtaa 420
aagtacattt gactcattga cggataaagt atgtgaaaat actttgaaag ccattgcaga 480
tatgggtttt actactatga ctgaaattca agcaaaatct atacctccac ttctggaagg 540
tagagatttg gttggggctg caaaaacagg atctggaaaa actcttgctt ttctcattcc 600
cgctgttgaa cttatttata agttaaagtt tatgccaaga aatggtactg gtatcattat 660
catttccccc acacgagaat tatcaatgca gacttttgga gtattaaaag aactaatgaa 720
atatcatcac catacatacg gtttggttat gggtggaact gcaagacaaa cagaagcaca 780
aaagctttcc aaaggtatta atatcttagt agcaacgcct ggtaggcttc tggatcatct 840
tcagaatact cctgacttct tgtataagaa tttacaatgt ttagtcattg acgaggctga 900
c 901
<210>272
<211>22
<212>DNA
<213>Diabrotica virgifera
<400>272
ggaaatggct tgaaacgctt gc 22
<210>273
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>273
ctgaagatga tccagaagcc taccagg 27
<210>274
<211>672
<212>DNA
<213>Diabrotica virgifera
<400>274
ggaaatggct tgaaacgctt gcagagcaac gatgaaggac cttctaaaaa aaaaaagaag 60
aaaaataaaa agaagaaaga gaaaatagtc gaagaggaag atacagacga agaacaacca 120
gaggaagatg aaattgagtc tgacattgaa gatcaagaga ttgacaatgg tgaagaagat 180
acagatgaaa aatctgattt aggaaacaaa ttaccaggat ccagtgctac attagaaatt 240
ctcagtaaaa gtacatttga ctcattgacg gataaagtat gtgaaaatac tttgaaagcc 300
attgcagata tgggttttac tactatgact gaaattcaag caaaatctat acctccactt 360
ctggaaggta gagatttggt tggggctgca aaaacaggat ctggaaaaac tcttgctttt 420
ctcattcccg ctgttgaact tatttataag ttaaagttta tgccaagaaa tggtactggt 480
atcattatca tttcccccac acgagaatta tcaatgcaga cttttggagt attaaaagaa 540
ctaatgaaat atcatcacca tacatacggt ttggttatgg gtggaactgc aagacaaaca 600
gaagcacaaa agctttccaa aggtattaat atcttagtag caacgcctgg taggcttctg 660
gatcatcttc ag 672
<210>275
<211>512
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(370)..(452)
<223〉n=a, c, g or t/u
<400>275
atttagtcca ctgtacaaat gaaccaaatg tttcaattcc acagctagca aatttgttaa 60
tagaaagatc acagaataca aactgggtag tagtttacaa ggcattagtt acagttcacc 120
acatgatgtg ttatggaaat gagagattta ctcagtacct agcatccagt aacagtacat 180
ttcaacttag caacttctta gataaagggg gacttcaagg atatgacatg tctccattta 240
ttagaaaata ttcacgatat ctcaatgaga aggccttatc atacagaact acagccttcg 300
acttttgcaa agttaaaaga gggaaggatt gatggcatgt taaggacaat gaacgcagat 360
aaattattan aaactcttcc cactttacaa natcaactgg atatcctatt ggaantttga 420
tgttccgcan atgatttnna caacggagtg antaatatgt gtttcatgtt gctttttagg 480
gatttatacg cttatttttg ctgtataatg at 512
<210>276
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>276
caaatgaacc aaatgtttca attccaca 28
<210>277
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>277
cgtataaatc cctaaaaagc aacatgaaac ac 32
<210>278
<211>470
<212>DNA
<213>Diabrotica virgifera
<400>278
tgaaccaaat gtttcaattc cacagctagc aaatttgtta atagaaagat cacagaatac 60
aaactgggta gtagtttaca aggcattagt tacagttcac cacatgatgt gttatggaaa 120
tgagagattt actcagtacc tagcatccag taacagtaca tttcaactta gcaacttctt 180
agataaaggg ggacttcaag gatatgacat gtctccattt attagaaaat attcacgata 240
tctcaatgag aaggccttat catacagaac tacagccttc gacttttgca aagttaaaag 300
agggaaggat gatggcatgt taaggacaat gaacgcagat aaattattaa aaactcttcc 360
cactttacaa aatcaactgg atatcctatt ggaatttgat tgttccgcaa atgatttaac 420
aaacggagtg ataaatatgt gtttcatgtt gctttttagg gatttatacg 470
<210>279
<211>978
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(918)
<223〉n=a, c, g or t/u
<400>279
cgcgtgggcg cgaacaggcg agaaaagacc tcaaaggact cgaagacact gtcgccaaag 60
aactacagac tctgcacaac ctgagaaaat tgttcgtgca agatttgcag gcacgtatga 120
agaaaaatct ttcgtcggaa gacaatgagg aagacggcgg ctctctggct caaaaacaga 180
agatatcgtt cctcgaaaac aatctcgatc aattgacaaa agtccacaag cagttggtac 240
gagacaacgc ggatctgcgc tgtgaacttc ccaaactcga aaagagacta cgagctacga 300
tggaaagagt caaagcactg gaaactgcac tgaaggaagc caaagaaggc gcgatgagag 360
accggaaaag ataccaatac gaggttgacc gcattaaaga ggctgtgagg cagaagaacc 420
tcgcaagaag aggcccagca gccacaatcg ctaaaccaat cagggcaggg caacacaaca 480
cggttaacgt agctggtaac cccgtcatta gaactggagg catcaacatg gccaacagat 540
cgaccgacga ccagaaacgt aggtctgtta ttggtggaga taaagattga gtcgccagcc 600
atcttgtcag gtgcttgaga cgtttttagt aagcaaaatc cataaaactg taataccaaa 660
aatattgccg atacttcgcg cgagtctgtc gccagcagtt tttggaacag acaagaaaaa 720
aaattgctcc tccagactcg ctcttcaatg tgcttacagc ttagatattt ctgtagtata 780
aggtgcactt cattgcattg aaaatgaaac aaattaatcg agtattgtaa cagattgttg 840
gcaaattgtt ttaataaatc gttcattttt tgttttcgat cacttctagc ttcctgtcga 900
attaagtgtt aacactanaa aacaatttgc ttgctgtttt atccttaaaa cgttgcaacg 960
tttacggcga ttttttga 978
<210>280
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>280
gaacaggcga gaaaagacct caaagg 26
<210>281
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>281
cacattgaag agcgagtctg gaggag 26
<210>282
<211>741
<212>DNA
<213>Diabrotica virgifera
<400>282
gaacaggcga gaaaagacct caaaggactc gaagacactg tcgccaaaga actacagact 60
ctgcacaacc tgagaaaatt gttcgtgcaa gatttgcagg cacgtatgaa gaaaaatctt 120
tcgtcggaag acaatgagga agacggcggc tctctggctc aaaaacagaa gatatcgttc 180
ctcgaaaaca atctcgatca attgacaaaa gtccacaagc agttggtacg agacaacgcg 240
gatctgcgct gtgaacttcc caaactcgaa aagagactac gagctacgat ggaaagagtc 300
aaagcactgg aaactgcacc gaaggaagcc aaagaaggcg cgatgagaga ccggaaaaga 360
taccaatacg aggttgaccg cattaaagag gctgtgaggc agaagaacct cgcaagaaga 420
ggcccagcag ccacaatcgc caaaccaatc agggcagggc aacacaacac ggttaacgta 480
gctggtaacc ccgtcattag aactggaggc atcaacgtgg ccaacagatc gaccgacgac 540
cagaaacgta ggtctgttat tggtggagat aaagattgag tcgccagcca tcttgtcagg 600
tgcttgagac gtttttagta agcaaaatcc ataaaactgt aataccaaaa atattgccga 660
tacttcgcgc gagtctgtcg ccagcagttt ttggaacaga caagaaaaaa aattgctcct 720
ccagactcgc tcttcaatgt g 741
<210>283
<211>876
<212>DNA
<213>Diabrotica virgifera
<400>283
ggaaaactgg tcccttctgt ttttctgatg tctcaaattt tctgtcctaa cttctaacac 60
ttgtttaaaa tccgttgaca tacttgctaa tttggatgga gtgctaagac aatgctactc 120
gtgtgtgatt gtagatgttt cccacttgat ccctgcttct gtttcctaga tacatcttgt 180
aattgggcta tttgttgatt caagttgcta agatcacctt ttatgatata tgtgagttct 240
tggatttctg atgttttgtc gtcaaataaa gattttcgtt ttgccaacaa tgtcaacttt 300
tccaatttag cataagtgct agctatatgc cgtcccacat tcttcgcaat tagcataaac 360
tcgctatgac tttgtataac cctcgatttc ttcgggtccc tagcagctac tgccctagca 420
atgttcctgc cttgtaatgt ctgtatagta tttacaaatt cactagttct gtctctggca 480
gtcatgacta attctggttc agtgtagtct tcgatataat cttcctctaa atagtagtca 540
gatgtaacat tgtttggata caccgtgtgt gactgattcg ttttaggctg agggttagtc 600
caataattat cgttacctac tataacttgg ggctcagttt cagagccagc tcgacgacgt 660
ctaggaagca ttgcattctt aagaggctac aaagttaatt ttgaaagtag cacaaccata 720
tttaaagcac tagaatttca ctttatatta tatttttatc acctactgta gtatatatca 780
tgactaattg tttaattggg tttaatatgt ttaattacaa ttaataatga actttacttt 840
ttcttttgaa agtacacgtc tatttgcccg gacgcg 876
<210>284
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>284
ggttgtgcta ctttcaaaat taactttgta gc 32
<210>285
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>285
cgttgacata cttgctaatt tggatggag 29
<210>286
<211>645
<212>DNA
<213>Diabrotica virgifera
<400>286
ggttgtgcta ctttcaaaat taactttgta gcctcttaag aatgcaatgc ttcctagacg 60
tcgtcgagct ggctctgaaa ctgagcccca agttatagta ggtaacgata attattggac 120
taaccctcag cctaaaacga atcagtcaca cacggtgtat ccaaacaatg ttacatctga 180
ctactattta gaggaagatt atatcgaaga ctacactgaa ccagaattag tcatgactgc 240
cagagacaga actagtgaat ttgtaaatac tatacagaca ttacaaggca ggaacattgc 300
tagggcagta gctgctaggg acccgaagaa atcgagggtt atacaaagtc atagcgagtt 360
tatgctaatt gcgaagaatg tgggacggca tatagctagc acttatgcta aattggaaaa 420
gttgacattg ttggcaaaac gaaaatcttt atttgacgac aaaacatcag aaatccaaga 480
actcacatat atcataaaag gtgatcttag caacttgaat caacaaatag cccaattaca 540
agatgtatct aggaaacaga agcagggacc aagtgggaaa catctacaat cacacacgag 600
tagcattgtc ttagcactcc atccaaatta gcaagtatgt caacg 645
<210>287
<211>883
<212>DNA
<213>Diabrotica virgifera
<400>287
cccgttacat cattttatca tatataaaat gattttaatt tgtttataat gtttattaag 60
taaaagcatt tcgccatcgt aacatgtcta agatttttgc gttatacggg gaactatgtg 120
ccactcaccc atgggaagtt atttttactg tcatcacctt cactgtatgt tttttgactt 180
tggataaacc gcaagggaca aaggcctttc cacggactac ctcaacatgt agcacctgca 240
ccgaagacca ttttatagcc gccgatgtaa tagtgatgac aataatcaga tgtcttgcca 300
tactgtacag ttatcatcaa ttcagaaatc tcagaaaact aggatccaaa tatatattag 360
gttttgcagg actatttgta gtctgctcca gtttcgtgtt tatatctgca gtattaaaca 420
tcctccaaat cgaagtagcg gacctaaaag atgctctgtt ctttttcttg ttgctaatag 480
atctctcaaa agctgttaaa ttggctcaat acgctctaac tgcctcaaac caagaagaaa 540
taagtaaaaa catagcaatg ggagttgctg ttttagggcc taccataacg ctagatacta 600
tcgtagaaac cttagtaata ggagtgggaa ctttgtcagg agttcagcgt ctagaaatgc 660
tatcgtattt tgcgtgtctg tcagtcattg tgaattatat aattttgtta actttttacc 720
cagcttgttt agctttaatg ttagatttaa gcaaagtaag tgattattac aaacaagaac 780
aagttaccag aatactagtg gacgaaaaag ataagtccaa tccagctgca caacgtgtta 840
agatgattat gtctcttgga ctcacatagt acatattcat agt 883
<210>288
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>288
gttatacggg gaactatgtg ccactcac 28
<210>289
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>289
gactgacaga cacgcaaaat acgatagc 28
<210>290
<211>586
<212>DNA
<213>Diabrotica virgifera
<400>290
gttatacggg gaactatgtg ccactcaccc atgggaagtt atttttactg tcatcacctt 60
cactgtatgt tttttgactt tggataaacc gcaagggaca aaggcctttc cacggactac 120
ctcaacatgt agcacctgca ccgaagacca ttttatagcc gccgatgtaa tagtgatgac 180
aataatcaga tgtcttgcca tactgtacag ttatcatcaa ttcagaaatc tcagaaaact 240
aggatccaaa tatatattag gttttgcagg actatttgta gtctgctcca gtttcgtgtt 300
tatatctgca gtattaaaca tcctccaaat cgaagtagcg gacctaaaag atgctctgtt 360
ctttttcttg ttgctaatag atctctcaaa agctgttaaa ttggctcaat acgctctaac 420
tgcctcaaac caagaagaaa taagtaaaaa catagcaatg ggagttgctg ttttagggcc 480
taccataacg ctagatacta tcgtagaaac cttagtaata ggagtgggaa ctttgtcagg 540
agttcagcgt ctagaaatgc tatcgtattt tgcgtgtctg tcagtc 586
<210>291
<211>816
<212>DNA
<213>Diabrotica virgifera
<400>291
gatagtagtc aatcagccag ccatgtggta gaaatcaaaa tttatgctcg atctttatac 60
cacctccgcg ttttcttcca aaaacaccgg atgctgataa ggaccagtat tgtttcatta 120
atttaaaaca gatggatggg tgcactgtca agttcagaga attcaattcg attatggttt 180
agcgatacgg tgacaataaa tttgaattat tgtcacattt atcaagaaag tgtacttaat 240
ttataaacag tctgtgataa tatagagctg aatatctaga ccagttatta acatgacgat 300
taagaatatt tgttgccttg gcgctggtta cgtaggtggg ccaacctgca gtgtgatagc 360
tttaaaatgt aaagatatta aagtaacagt tgctgatctt agcgaagaac gaatagctca 420
atggaactcc gacagactcc caatttatga gcctggatta gacaaagtag tacaagagtg 480
cagaggtagg aatttattct tcaccactaa ccttactcaa gcaatattag atgctgactt 540
gatatttata tcagtgaata caccaacaaa actgaacgga aatggcaagg gaagggcacc 600
tgatctaaaa tacatagagg gagcagcaag aatcatagct gatactgctc aaactaacaa 660
aatcgttgta gaaaaaagta ctgttccagt acgagcagct gaaagtattt cagatatctt 720
aacagctaat aaaaagccaa aagtgacaca tcagattttg tctaatccag aatttctagc 780
ggaaggtact gcaatcaatg atctgctcat cctgat 816
<210>292
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>292
gatagtagtc aatcagccag ccatgtgg 28
<210>293
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>293
gcagtacctt ccgctagaaa ttctgga 27
<210>294
<211>792
<212>DNA
<213>Diabrotica virgifera
<400>294
gatagtagtc aatcagccag ccatgtggca gaaatcaaaa tttatgctcg atctttatac 60
cacctccgcg ttttcttcca aaaacaccgg atgctgataa ggaccagtat tgtttcatta 120
atttaaaaca gatggatggg tgcactgtca agttcagaga attcaattcg attatggttt 180
agcgatacgg tgacaataaa tttgaattat tgtcacattt atcaagaaag tgtacttaat 240
ttataaacag tctgtgataa tatagagctg aatatctaga ccagttatta acatgacgat 300
taagaatatt tgttgccttg gcgctggtta cgtaggtggg ccaacctgca gtgtgatagc 360
tttaaaatgt aaagatatta aagtaacagt tgctgatctt agcgaagaac gaatagctca 420
atggaactcc gacagactcc caatttatga gcctggatta gacaaagtag tacaagagtg 480
cagaggtagg aatttattct tcaccactaa ccttactcaa gcaatattag atgctgactt 540
gatatttata tcagtgaata caccaacaaa actgaacgga aatggcaagg gaagggcacc 600
tgatctaaaa tacatagagg gagcagcaag aatcatagct gatactgctc aaactaacaa 660
aatcgttgta gaaaaaagta ctgttccagt acgagcagct gaaagtattt cagatatctt 720
aacagctaat aaaaagccaa aagtgacaca tcagattttg tctaatccag aatttctagc 780
ggaaggtact gc 792
<210>295
<211>1215
<212>DNA
<213>Diabrotica virgifera
<400>295
cggacgcgtg gggttgaaag ttaggttaac tccttcacta aacttgctct tgttgtagat 60
acacgtgttt acagcaaata agttattttt taagtatatt gactgcaaat tttcacaatg 120
gctaacgatt tagaacaaaa gatcatcaaa caaatcgaat attacttcgg agacatcaat 180
ctgccgcgtg ataaattctt acaagagaaa atcaaagaag atgaagggtg gatcactctg 240
gatgtcttat taacgttcaa acgtctttcg tcgttatcta ctgaccaaga attaatcgca 300
aaagcagttg aaaagtctga aaatggccta gtgatggtaa gcgaagaccg taagaaactt 360
agacgcaatc cagagaaacc gagtccagaa ttgaatgagg aaagacgcaa agagatcatg 420
gggaggacag cctacgcaaa aggatttcca ttggatgaag aatttaacaa cattatcact 480
ttcctagatg catatggacc agtcgaatca tgcagtcgta gatccaccaa agaccataaa 540
tttaagggtt cctgttttat tattttcaaa gatgtcgaaa cctgcaagaa attcgtagaa 600
gcggaaagta tcaaatatgg agaaacagaa ctaatcagga aattccaaca agtatatttt 660
gacgacaaaa aaaaagagat acaggacaga aaaaacgaga aagctgctag caaggtagct 720
gcaaaatcgg gcacaccgct tcagtttccc aaaggagcca ttattcattt ctctggaatc 780
gaggaaggtg taaaattatt gagggaagat cttaaagaaa aggtcaagga agtcggcaaa 840
attgaagtaa aattcgttga ttttaatcaa ggtgatttgg agggatacct acgtttcgca 900
gaagaaaacg aagctgtcga gttctttaag acagttgata atgacacact tgaaattaaa 960
gatcaaaaag tcaaattgag agtgttagaa ggagacgaag aggaggaata tctgaagaaa 1020
acttcagatt ctattctaaa catgagaaaa cataagaaac aaaattctaa taacagaaaa 1080
cgaaagggca actttggtgg cggaagaaga gatgctaaag ttagtaaaag ggactaataa 1140
acaaaatatg ttatcatctt tatctaattg tttagatatt gtaaaaatta ggttaaaaat 1200
aaaggttttt tttac 1215
<210>296
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>296
caagagaaaa tcaaagaaga tgaagggtgg 30
<210>297
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>297
ccaaagttgc cctttcgttt tctgttatta gaat 34
<210>298
<211>895
<212>DNA
<213>Diabrotica virgifera
<400>298
caagagaaaa tcaaagaaga tgaagggtgg atcactctgg atgtcttatt aacgttcaaa 60
cgtctttcgt cgttatctac tgaccaagaa ttaatcgcaa aagcagttga aaagtctgaa 120
aatggcctag tgatggtaag cgaagaccgt aagaaactta gacgcaatcc agagaaaccg 180
agtccagaat tgaatgagga aagacgcaaa gagatcatgg ggaggacagc ctacgcaaaa 240
ggatttccat tggatgaaga atttaacaac attatcactt tcctagatgc atatggacca 300
gtcgaatcat gcagtcgtag atccaccaaa gaccataaat ttaagggttc ctgttttatt 360
attttcaaag atgtcgaaac ctgcaagaaa ttcgtagaag cggaaagtat caaatatgga 420
gaaacagaac taatcaggaa attccaacaa gtatattttg acgacaaaaa aaaagagata 480
caggacagaa aaaacgagaa agctgctagc aaggtagctg caaaatcggg cacaccgctt 540
cagtttccca aaggagccat tattcatttc tctggaatcg aggaaggtgt aaaattattg 600
agggaagatc ttaaagaaaa ggtcaaggaa gtcggcaaaa ttgaagtaaa attcgttgat 660
tttaatcaag gtgatttgga gggataccta cgtttcgcag aagaaaacga agctgtcgag 720
ttctttaaga cagttgataa tgacacactt gaaattaaag atcaaaaagt caaattgaga 780
gtgttagaag gagacgaaga ggaggaatat ctgaaaaaaa cttcagattc tattctaaac 840
atgagaaaac ataagaaaca aaattctaat aacagaaaac gaaagggcaa cttgg 895
<210>299
<211>822
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(807)
<223〉n=a, c, g or t/u
<400>299
caattagctc aaagagccag agacgagaga gctgggatta aggcagctcc tagtcattcc 60
aagggaggcg tggacgagga agaacacgaa agagacttgc ttcgtcaaga tcgtcataaa 120
gagcgagctc gagatcgtaa tttagcgcgt gcagctcccg ataagcgcag taaacttcag 180
cgagagcgcg aaagagacat ctcagaacaa attgctctcg gtatgccagc gaaaggtgca 240
ccatccaacg acactcagtt tgatcaaaga ttatttggtc aggctcaagg tcttggtcac 300
ggctatgggg atgatgaagc ttataatgtc tatgataaac cttggagaga tggaggatcc 360
atggcaaatc acatttatcg accaagtaaa aatattgata aagatatgta tggtggagaa 420
gacattgaaa aagctattag aactaatagg tttgtaccag ataaagaatt tgggggtact 480
gatcgttctg gagcaggccg atcaggtcct gtgcaattcg aaaaagaaga agatccgttc 540
ggattggatc agttcttgtc gcaagctaag agagccagta aaagaaaaga acctgaaaag 600
agagacgaca gggataagag gaaaagaaga gagtaaaagt attttacagt ttctttttga 660
gacctttata aaataaatat aggtatactg gtatacataa ttctgatgta tttttaaaaa 720
agttatattt gatattatgt aactaattgt aataggtaaa ctcaacaata catttttcag 780
ataatttttg tgaattattg taattanata tctataacac ac 822
<210>300
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>300
caagggaggc gtggacgagg aag 23
<210>301
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>301
ctctcttctt ttcctcttat ccctgtcgtc tc 32
<210>302
<211>573
<212>DNA
<213>Diabrotica virgifera
<400>302
cagggaggcg tggacgagga agaacacgaa agagacttgc ttcgtcaaga tcgtcataaa 60
gagcgagctc gagatcgtaa tttagcgcgt gcagctcccg ataagcgcag taaacttcag 120
cgagagcgcg aaagagacat ctcagaacaa attgctctcg gtatgccagc gaaaggtgca 180
ccatccaacg acactcagtt tgatcaaaga ttatttggtc aggctcaggg tcttggtcac 240
ggctatgggg atgatgaagc ttataatgtc tatgataaac cttggagaga tggagggtcc 300
atggcaaatc acatttatcg accaagtaaa aatattgata aagatatgta tggtggagaa 360
aacattgaaa aagctattag aactaatagg tttgtaccag ataaagaatt tgggggtact 420
gatcgttctg gagcaggccg atcaggtcct gtgcaattcg aaaaagaaga agatccgttc 480
ggattggatc agttcttgtc gcaagctaag agagccagta aaagaaaaga acctgaaaag 540
agagacgaca gggataagag gaaaagaaga gag 573
<210>303
<211>755
<212>DNA
<213>Diabrotica virgifera
<400>303
aatgataact ttgggtgggg atgctgattt tgaaatggtt gatacgtatg atccattttc 60
agagggaatt cagtttaatg tgaggcctcc gaaaaaatct tggaagaaaa tttctaactt 120
atctggagga gaaaaaacgt tatcatcttt ggcccttgtc tttgctctgc attattacaa 180
accttcgcca ctttatgtaa tggacgaaat tgacgcagcc ttagatttca aaaatgtgtc 240
aattgttgga aattatatta agcaacgtac caaaaacgct caattcatta taatctccct 300
tcgatccaac atgttcgaac tgtgcgataa tctcatagga atttacaaaa cgtacgattg 360
cacgaagtct ataacgatag atccaagagt atatgacgag caaacaaaac ataacgaaaa 420
gcgagtgtcg cttggatcga ccaacgaaga gagtagacga acgtctgtgc ccgcttctgg 480
tactggagat tctggagata aaaatccaga aagaaatgtt agcaatgaag ttgtagacga 540
acaacgttcg aacttgatgg aggttgataa tgtcatccag agtacaaata atgccaggga 600
ttcatctggt ctgtctagta gcatgagtga aaatgaaaat agtttacaag aatcccaagt 660
gcctgaaata tgaaggggtc agtttcgtga tttagttact acttcttgat ataaatgtag 720
catttttagt tactttaata catttacata tttgt 755
<210>304
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>304
ggatgctgat tttgaaatgg ttgatacg 28
<210>305
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>305
cttcatattt caggcacttg ggattcttg 29
<210>306
<211>656
<212>DNA
<213>Diabrotica virgifera
<400>306
ggatgctgat tttgaaatgg ttgatacgta tgatccattt tcagagggaa ttcagtttaa 60
tgtgaggcct ccgaaaaaat cttggaagaa aatttctaac ttatctggag gagaaaaaac 120
gttatcatct ttggcccttg tctttgctct gcattattac aaaccttcgc cactttatgt 180
aatggacgaa attgacgcag ccttagattt caaaaatgtg tcaattgttg gaaattatat 240
taagcaacgt accaaaaacg ctcaattcat tataatctcc cttcgatcca acatgttcga 300
actgtgcgat aatctcatag gaatttacaa aacgtacgat tgcacgaagt ctataacgat 360
agatccaaga gtatatgacg agcaaacaaa acataacgaa aagcgagtgt cgcttggatc 420
gaccaacgaa gagagtagac gaacgtctgt gcccgcttct ggtactggag attctggaga 480
taaaaatcca gaaagaaatg ttagcaatga agttgtagac gaacaacgtt cgaacttgat 540
ggaggttgat aatgtcatcc agagtacaaa taatgccagg gattcatctg gtctgtctag 600
tagcatgagt gaaaatgaaa atagtttaca agaatcccaa gtgcctgaaa tagaag 656
<210>307
<211>428
<212>DNA
<213>Diabrotica virgifera
<400>307
cggacgcgtg ggctgaaatc caaatttttt ataaatataa ccttaaagaa gtctgtaaag 60
atttaagcat gatttaacga aatattaaat ttttaacttt aaaatgccga actcagatat 120
tgatgataac gaaaaagtaa ctgggcccgt cgacaatgca tgggaactga aaattccaga 180
attcaaacca gaagataatc cacatggatt attagaggaa agtagtttcg ccacattatt 240
tccacaatac agagaacaat atttaagaca agtatggcct ttagttaaga aaactctggg 300
tgaatataat ataaaagcag aactagatgt tgtagaaggt agtatgactg ttaaaaccac 360
aaggcaaaca tgggatcctt acattattat taaagcaaga gatgtgataa agttaatgtc 420
tagaagtg 428
<210>308
<211>36
<212>DNA
<213>Diabrotica virgifera
<400>308
cgaactcaga tattgatgat aacgaaaaag taactg 36
<210>309
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>309
catgtttgcc ttgtggtttt aacagtcata ctac 34
<210>310
<211>265
<212>DNA
<213>Diabrotica virgifera
<400>310
cgaactcaga tattgatgat aacgaaaaag taactgggcc cgtcgacaat gcatgggaac 60
tgaaaattcc agaattcaaa ccagaagata atccacatgg attattagag gaaagtagtt 120
tcgccacatt atttccacaa tacagagaac aatatttaag acaagtatgg cctttagtta 180
agaaaactct gggtgaatat aatataaaag cagaactaga tgttgtagaa ggtagtatga 240
ctgttaaaac cacaaggcaa acatg 265
<210>311
<211>657
<212>DNA
<213>Diabrotica virgifera
<400>311
acgcgtccgc ccacgcgtcc gcgactgccg gccattattt gtaagcggcg aaagattcgg 60
cgttgctttg taaaattgtt gtgaatctac cggcatcaaa agcctaaaaa gcgtgtagct 120
tttacgtagt tatttaactg tagctacttt acaaatttca tcaaaatggg cgatgaaaag 180
aaggccagcg atagcgaaca cattaatctc aaagtacttg gtcaggataa tgcagtggta 240
caattcaaaa tcaaaaaaca caccccatta aaaaaattga tgaccgccta ttgtgaacgt 300
gctggtataa gcacacaagt agtcagattt agatttgatg gcaaccccat aaacgacaca 360
gatactccta attctttaga gatggatgaa ggagacacaa ttgaagtata tcaacaacag 420
acaggtggtt tcttctatcg gtttctattc atttaaataa tcacactgta ttgttcttgt 480
attttcttat ttgctaaatt aaactagttt taaataagta agttaatttt aatataattt 540
ttaattcatg tcaactgaag ttacaatagt tctgtaagaa ttcgactatt tgtgtttttg 600
gactcttatt ttgtaattaa aacacttaga atacaaacat ttttcttata aaaaaaa 657
<210>312
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>312
gaaagattcg gcgttgcttt gtaaaattg 29
<210>313
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>313
gaatagaaac cgatagaaga aaccacctgt c 31
<210>314
<211>401
<212>DNA
<213>Diabrotica virgifera
<400>314
gaaagattcg gcgttgcttt gtaaaattgt tgtgaatcta ccggcatcaa aagcctaaaa 60
agcgtgtagc ttttacgtag ttatttaact gtagctactt tacaaatttc atcaaaatgg 120
gcgatgaaaa gaaggccagc gatagcgaac acattaatct caaagtactt ggtcaggata 180
atgcagtggt acaatttaaa atcaaaaaac acaccccatt aaaaaaattg atgaccgcct 240
attgtgaacg tgctggtata agcacacaag tagtcagatt tagatttgat ggcaacccca 300
taaacgacac agatactcct aattctttag agatggatga aggagacaca attgaagtat 360
atcaacaaca gacaggtggt ttcttctatc ggtttctatt c 401
<210>315
<211>822
<212>DNA
<213>Diabrotica virgifera
<400>315
aaacgacgat tcagtgcacc gacgcaacgt acgccagcca attgtcccta gagaatccca 60
aaggattttc tagagatgct tttggaaggc agagtatgtc agagaagagg catgcgacgt 120
tggatgccaa gaataccgac acatatcaga aatcgaagaa gattagggag gagaggaaga 180
tgaaagaaat aaatgctgat aaattaggcc aattaggacc aagtttaggc atgaagaaat 240
cttcaagctt ggaatcgtta cagacaatgg tacaagagat tcaaatgcaa gaagaaggcg 300
acccagctta tagttataga ggacccaatg gagctttaaa agtaatcagg gggaaaggct 360
gtgaagaaag ctttagggca gctgtagtgg atccaaatca ccgaagtgag atcggagcca 420
aaaagcattg gttgcttgac ggtccaatgg aaaacgaacg agaagtggat ggcttcagca 480
atgctcgagg aggtcctagg caatcttctc tgaatgcagc tattgatata aagaataaat 540
cagcaaagaa gaaacctggt atatttaaag gcattggttc gatgttcagg tttggcaaac 600
atcgtaaact ggacttccaa acagcagagg ctgcccaaca ctatcatcat acaaacgaat 660
tcgattcaaa tgccaacgta cctcaacaac acaccgcaga taccgaaaac cgaacgcaaa 720
gtagtcaaac agaacggacg caagagcatt cacaaaaagt acctctaaat agcaaccccc 780
agaaccaaaa cacttcccaa ggatctcacc accagacgca ag 822
<210>316
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>316
gatgccaaga ataccgacac atatcagaaa tc 32
<210>317
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>317
cttgcgtctg gtggtgagat ccttg 25
<210>318
<211>700
<212>DNA
<213>Diabrotica virgifera
<400>318
gatgccaaga ataccgacac atatcagaaa tcgaagaaga ttagggagga gaggaagatg 60
aaagaaataa atgctgataa attaggccaa ttaggaccaa gtttaggcat gaagaaatct 120
tcaagcttgg aatcgttaca gacaatggta caagagattc aaatgcaaga agaaggcgac 180
ccagcttata gttatagagg acccaatgga gctttaaaag taatcagggg gaaaggctgt 240
gaagaaagct ttagggcagc tgtagtggat ccaaatcacc gaagtgagat cggagccaaa 300
aagcattggt tgcttgacgg tccaatggaa aacgaacgag aagtggatgg cttcagcaat 360
gctcgaggag gtcctaggca atcttctctg aatgcagcta ttgatataaa gaataaatca 420
gcaaagaaga aacctggtat atttaaaggc attggttcga tgttcaggtt tggcaaacat 480
cgtaaactgg acttccaaac agcagaggct gcccaacact atcatcatac aaacgaattc 540
gattcaaatg ccaacgtacc tcaacaacac accgcagata ccgaaaaccg aacgcaaagt 600
agtcaaccag aacggacgca agagcattca caaaaagtac ctcaaaatag caacccccag 660
aaccaaaaca cttcccaagg atctcaccac cagacgcaag 700
<210>319
<211>1321
<212>DNA
<213>Diabrotica virgifera
<400>319
ttagccaagc ggcatggaag taaagaccca aaggagctct gttttcattg taatgcctat 60
cgaaattata atttaagaag ttataaaatt gatctccagt aagaatgttg gaacatgagt 120
caaccatggc acaacctggt aaatactcat cattttcagg atcttctctt ctatctagtt 180
cgttaagtac catttcccat actgcatgtg atcttgttgg gcaattttgg aggtttccgt 240
gacatctgtg tggcattcta aaatacatag tatagggcca tagtggtggg ttatttaagg 300
gtgcggtgat agtggagtcg tataagaagg cttcttcttc catcatagta aattggttgt 360
tacctcctac tcttagataa ggggctctta ctcctactac gctgttatcg gtaatattgg 420
cgaatttctc agtgatgact cgcatacctc ccatttcttt aacccagtca tttacactgg 480
cgttggacca gaagttttcg tcatcattgt gcgatattga atgtactgcg atttcgtgac 540
cttttctatg catttcttgg actgccgagt agttggtgta cttgtgagac acgaagaatg 600
tagccttgat atgacaaccg ttggggtttt tccgttcacc gttgaaaatg ttcttgtata 660
gaccgatgtt gttattattt atggcgtcgt caaatgtgac agttatcatt tgaggtacat 720
ctttggctgg taaatcattg ggaatgcctg taccgtcctc tgagcagaaa caatcaggga 780
gaacgcatac tgcggggtcg cagggtgggg cactattggg gtcactatcg atatcgcagg 840
tagtttcatc agacccatcc tggcaatcct tttccccgtt acaaaagagc cctctttcta 900
tacactgacc atctccgcag gccaattcac cttcgttaca tacgggtttg tccgtaaaca 960
acatgggttt tacccgccgc tctttgtttt tcaatttgca gtttttaact gagtccttcc 1020
agtcgcatgt ttgcttttcg atgtcgaaat atagaccggc tggacaacga atggcttgca 1080
ggcccgaaga tgtacattga atgacgtctc gacaggtgtc cccctcccct cccactaaac 1140
gaaaccactc gcccgcgtct ttgtctttgc atatttcggc ctcgaaactc tcctctttct 1200
tcggttcatc gtctttggcc tgctgttgtg ccaaaccgct tgaggctacc aacgcaacca 1260
agaaaatcgt cgttgcgaag tacgccatga cacttaaaca actgaaagta ccggacgcac 1320
a 1321
<210>320
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>320
cagttgttta agtgtcatgg cgtacttcg 29
<210>321
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>321
ggaggtttcc gtgacatctg tgtgg 25
<210>322
<211>1075
<212>DNA
<213>Diabrotica virgifera
<400>322
cagttgttta agtgtcatgg cgtacttcgc aacgacgatt ttcttggttg cgttggtagc 60
ctcaagcggt ttggcacaac agcaggccaa agacgatgaa ccgaagaaag aggagagttt 120
cgaggccgaa atatgcaaag acaaagacgc gggcgagtgg tttcgtttag tgggagggga 180
gggggacacc tgtcgagacg tcattcaatg tacatcttcg ggcctgcaag ccattcgttg 240
tccagccggt ctatatttcg acatcgaaaa gcaaacatgc gactggaagg actcagttaa 300
aaactgcaaa ttgaaaaaca aagagcggcg ggtaaaaccc atgttgttta cggacaaacc 360
cgtatgtaac gaaggtgaat tggcctgcgg agatggtcag tgtatagaaa gagggctctt 420
ttgtaacggg gaaaaggatt gccaggatgg gtctgatgaa actacctgcg atatcgatag 480
tgaccccaat agtgccccac cctgcgaccc cgcagtatgc gttctccctg attgtttctg 540
ctcagaggac ggtacaggca ttcccaatga tttaccagcc aaagatgtac ctcaaatgat 600
aactgtcaca tttgacgacg ccataaataa taacaacatc ggtctataca agaacatttt 660
caacggtgaa cggaaaaacc ccaacggttg tcatatcaag gctacattct tcgtgtctca 720
caagtacacc aactactctg cagtccaaga aatgcataga aaaggtcacg aaatcgcagt 780
acattcaata tcgcacaatg atgacgaaaa cttctggtcc aacgccagtg taaatgactg 840
ggttaaagaa atgggaggta tgcgagtcat cactgagaaa ttcgcaaata ttaccgataa 900
cagcgtagta ggagtaagag ccccttatct aagagtagga ggtaacaacc aatttactat 960
gatggaagaa gaagccttct tatacgactc cactatcacc gcaccattaa ataacccacc 1020
actatggccc tatactatgt atttcagaat gccacacaga tgtcaggaaa cctcc 1075
<210>323
<211>1703
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(1641)
<223〉n=a, c, g or t/u
<400>323
tgaaagtcaa cattggtgaa gagtagtact gtccaacgga gcatgcgcag tgcgaaaaaa 60
gcacttgtat aaataaaacg aaagtctgcg atcacttctt ggctagtgct tgaaatttca 120
gcatggctga caaaagacta tggctgtgtt gttttttatt attgacaatt gcttacgctc 180
aagatgaaga tgatgacgat tcaggggaac cacagatcga ccagctgtgt gaaaacaggc 240
ctgctgatga atattttagg ttaagcactg atggagactg cagagaagtt gtaaggtgtg 300
atctcaattc agatcttaag ggcggtactc gattggcagc ggtaaaatgt ccgacaggac 360
ttgcttttga tcttttccga caaacttgcg attggaaagt caatgtcaaa aattgtgata 420
tcgtagaaaa accaagaaaa gtccttccaa ttttgaaaac cgacgaacca agatgtccag 480
aaggaaagct gatgtgtggt aatgaagaat gtatcgacaa agatcttttc tgtaatggaa 540
agccagactg taaagatgaa tcagacgaga atgcatgcga tgttgatagt gatcccaacc 600
gtgcacctga ctgtgaccca actcaatgtg taattccgga ctgtttctgc tcagcggacg 660
gaactagaat tcctggcgcg ctagaaccag caaatgtacc acaaatgata accatttcgt 720
tcaatggtgc cgttaatgta gataacatcg atctatatga agaaatcttt tcaggcacta 780
gacttaatcc aaatggttgc caaattaaag gaaatttctt cgtttctcac aaatacacaa 840
actactcagc agtacaggac ctacacagac gtggtcatga aatcgcggtg ttttcattga 900
ctcataaaga ggatccaaac tactggtccc agggttctta tgacgactgg ttggctgaaa 960
tggctggagc tagattgatt attgaaagat ttgccaacat taccgatgga tcaataattg 1020
gagtgagagc tccatacctc agagtaggag gaaacagaca atttgaaatg atgacagatc 1080
aattctttat ttatgattca tcaattacag cctctcttgg acgtgtccca atctggcctt 1140
atactttata cttcaggatg ccacataagt gcaacggaaa tgcccacaac tgtcccagca 1200
gaagccatcc cgtttgggaa atagtcatga acgaattgga cagacgtgat gatcctactt 1260
ttgacgaatc actacctggt tgccacatgg tagactcctg ttctaatgtt caaactggag 1320
atcaatttgc aagactactc agacacaatt tcaacagaca tttgaattca aaccgagctc 1380
cgttgggtct taacttccat gcctcatggt taaagagtaa gaaagaattc aaagaagaac 1440
ttattaaatt cattgaagat atgttggccc gaaatgatgt ttatttcgta acaaacagtc 1500
aagtcatcca atgggttcag aatcccacag aactcagtgg attaagagac ttccaagaat 1560
ggaaagaaaa gtgtgacatt aaaggtcaac cttactgttc attgcccaat tcatgtccat 1620
tacataccag agaactgcca nggtgaactc tacgattgtt tacctgtatg gaatgtccca 1680
acaattatcc atggattttg gat 1703
<210>324
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>324
gacgaaccaa gatgtccaga aggaaagc 28
<210>325
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>325
gttgggacat tccatacagg taaacaatcg 30
<210>326
<211>1221
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(271)..(358)
<223〉n=a, c, g or t/u
<400>326
gacgaaccaa gatgtccaga aggaaagctg atgtgtggta atgaagaatg tatcgacaaa 60
gatcttttct gtaatggaaa gccagactgt aaagatgaat cagacgagaa tgcatgcgat 120
gttgatagtg atcccaaccg tgcacctgac tgtgacccaa ctcaatgtgt aattccggac 180
tgtttctgct cagcggacgg aactagaatt cctggcgcgc tagaaccagc aaatgtacca 240
caaatgataa ccatttcgtt caatggtgcc ngttaatgta gataacatcg atctatatga 300
agaaatcttt tcaggcacta gacttaatcc aaatggttgc caaattaaag gaaatttnct 360
tcgtttctca caaatacaca aactactcag cagtacagga cctacacaga cgtggtcatg 420
aaatcgcggt gttttcattg actcataaag agggtccaaa ctactggtcc cagggttctt 480
atgacgactg gttggctgaa atggctggag ctagattgat tattgaaaga tttgccaaca 540
ttaccgatgg atcaataatt ggagtgagag ctccatacct cagagtagga ggaaacagac 600
aatttgaaat gatgacagat caattcttta tttatgattc atcaattaca gcctctcttg 660
gacgtgtccc aatctggcct tatactttat acttcaggat gccacataag tgcaacggaa 720
atgcccacaa ctgtcccagc agaagccgtc ccgtttggga aatagtcatg aacgaattgg 780
acagacgtga tgatcctact tttgacgaat cactacctgg ttgccacatg gtagactcct 840
gttctaatgt tcaaactgga gatcaatttg caagactact cagacacaat ttcaacagac 900
atttgaattc aaaccgagct ccgttgggtc tcaacttcca tgcctcatgg ttaaagagta 960
agaaagaatt caaagaagaa cttattaaat tcattgaaga tatgttggcc cgaaatgatg 1020
tttatttcgt aacaaacagt caagtcatcc aatgggttca gaatcccaca gaactcagtg 1080
gattaagaga cttccaagaa tggaaagaaa agtgtgacat taaaggtcaa ccttactgtt 1140
cattgcccaa ttcatgtcca ttacatacca gagaactgcc aggtgaaact ctacgattgt 1200
ttacctgtat ggaatgtccc a 1221
<210>327
<211>826
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(658)..(684)
<223〉n=a, c, g or t/u
<400>327
caaattgttt attacaagtt tattaccatg agagtgtata taatattatt tagcgtcttt 60
tgcttgagcc attgcgctcc acaggaaaac aaaaataaat ttccagaaca ataccaaggt 120
caacacatac caattgtaag gcaagaacaa gaagtgaatt atgatggcac ctacgaatac 180
aactttgaaa ctggaaatgg catagtccaa gaagaaaaag gatttttgaa aaacgccggt 240
acaaaggaag aagctcaagt cgctcaaggt ttttcctcat atacttcccc cgaaggagta 300
aaaatagaac tccggtacat cgcagacgaa aacggtttcc agccaatcgg agaccaccta 360
ccgactccgc caccaatccc tgaggctatt ttacgagcgc taagtgtact gaaacagttg 420
ggtaatttga atgaagacca agaagaaaat aacaacatta gatgaagaga gagtgtgatc 480
aaatcgttat tttggataag tcccttcata tttcaaaatg gtaccatact aactatgaaa 540
tacttcaaag aattaagatc tttttaaaat acgtcaacac tttagagtag gaaacagcgg 600
tggaacctcg caaaatgtac acaagttcgg ttttattttt ttgcaggaaa atcaaggngt 660
gcttataatg aaactaacat tttnctaaaa aatttcgccc ctgaaccccc ctttttatcc 720
ctttgaaggg gggtatttgt ggtttttgcg aaacgaagcc cttcctgtat acgttttaca 780
aaagaatgta ctaaatagta aaatgaagag gactataatt tgctac 826
<210>328
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>328
ccagaacaat accaaggtca acacatacc 29
<210>329
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>329
gaggttccac cgctgtttcc tactc 25
<210>330
<211>505
<212>DNA
<213>Diabrotica virgifera
<400>330
agaacaatac caaggtcaac acataccaat tgtaaggcaa gaacaagaag tgaattatga 60
tggcacctac gaatacaact ttgaaactgg aaatggcata gtccaagaag aaaaaggatt 120
tttgaaaaac gccggtacaa aggaagaagc tcaagtcgct caaggttttt cctcatatac 180
ttcccccgaa ggagtaaaaa tagaactccg gtacatcgca gacgaaaacg gtttccagcc 240
aatcggagac cacctaccga ctccgccacc aatccctgag gctattttac gagcgctaag 300
tgtactgaaa cagttgggta atttgaatga agaccaagaa gaaaataaca acattagatg 360
aagagagagt gtgatcaaat cgttattttg gataagtccc ttcatatttc aaaatggtac 420
catactaact atgaaatact tcaaagaact aagatctttt taaaatacgt caacacttta 480
gagtaggaaa cagcggtgga acctc 505
<210>331
<211>731
<212>DNA
<213>Diabrotica virgifera
<400>331
ttggtaaagt ttgttgtagt ttcagtgatc ttcattttga actctttttt tttttcaata 60
tgcgaactac gtactttaca ttagttgtaa tattagctgt agctgtacaa gaacatgcat 120
ctcaacaatt accagtaacg caagcttgct tgggatgtat atgtgaagct atttccaact 180
gtaatgtaac tagcggttgt tctggtgagg tttgtggacc atttcggatc acctgggcat 240
attgggcaga tgctggaaag cccaccgtga aaggagtatc accagaagac aataatgcat 300
atggatcttg tgctactgat acgtattgtt ctgcattagc tgttcaagga tatatgaata 360
aatttcaaca ggattgcaat ggtgatggta aaatagactg tgacgattat gcaagtattc 420
acacgcatgg tggatatggc tgcaaaggaa ctaatctacc acaacctttt ggaaatcgat 480
attatcaatg taaagagata gttggacgta gaccagagta atgttggagt aaccccagga 540
ttgagaacag gaagattgat agaaacgcat ttactactct atgaattttg ttggatgatt 600
attgcaactt aatgtaattc aatatgttta agggctgtaa ttacaattaa ataaaaataa 660
ctgacatcat agaatacact attgtaacaa ctattttttt aggtatagta ttttaagtaa 720
actctttttt t 731
<210>332
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>332
gcatctcaac aattaccagt aacgcaagc 29
<210>333
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>333
gtttctatca atcttcctgt tctcaatcct gg 32
<210>334
<211>450
<212>DNA
<213>Diabrotica virgifera
<400>334
gcatctcaac aattaccagt aacgcaagct tgcttgggat gtatatgtga agctatttcc 60
aactgtaatg taactagcgg ttgttctggt gaggtttgtg gaccatttcg gatcacctgg 120
gcatattggg cagatgctgg aaagcccacc gtgaaaggag tatcaccaga agacaataat 180
gcatatggat cttgtgctac tgatacgtat tgttctgcat tagctgttca aggatatatg 240
aataaatttc aacaggattg caatggtgat ggtaaaatag actgtgacga ttatgcaagt 300
attcacacgc atggtggata tggctgcaaa ggaactaatc taccacaacc ttttggaaat 360
cgatattatc aatgtaaaga gatagttgga cgtagaccag agtaatgttg gagtaacccc 420
aggattgaga acaggaagat tgatagaaac 450
<210>335
<211>878
<212>DNA
<213>Diabrotica virgifera
<400>335
gtgattgtgg tgttttatcg gtgttaagac aggatgggtt tcggtcaaaa aattctagtc 60
cctctagtcc ttatagaaat gtccctactg gttacatcca gaataatata tgaccatcag 120
caagaagata atcacgaagg gcaacaagtt caatacacca attactatgg tcacgaagag 180
tctgccacaa cagcacattt ccaacaaccc gtccagtttc ccgaggaaca tagccaaggt 240
ttgcacaaag aggaacacat cgattattac gcaccagcca agtattcctt caaatatgga 300
gtcaacgact accacactgg cgatataaaa agccaacacg aatccagaga cggagatact 360
gtcaaaggcc aatacacact tgtagaaccc gacggatcta tcagaactgt agactacact 420
gctgacaaac acagtggatt taacgcagta gtgcgcaaat caggtcccac aaaacacata 480
gaaggaaggc atctggaaca ccaacccgaa gaagagcaac atatacctca gcatcatttg 540
gcagaagatc atgttttacc gcagtatcaa ctggaacacc aacaggcttt ggaagaagat 600
gttgaagaag gacatctgga agctgaagat gctagtcaat atgaagaaga agagcattag 660
gtgttatatt aagtttaagg acgtaatggt ttgtaaataa gcgaactcaa agattaaagt 720
agtatctttt aaaattattg gagaaaataa gaatttttgt ttgtaagaaa aagtatcatc 780
atcaactata tttttttata acacttttaa cattttggga acgtaatatt cgaatttata 840
cactcacaga caaaaatctt gcatattttg aaattatg 878
<210>336
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>336
ggtgttaaga caggatgggt ttcggtc 27
<210>337
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>337
ggtgttccag ttgatactgc ggtaaaac 28
<210>338
<211>560
<212>DNA
<213>Diabrotica virgifera
<400>338
ggtgttaaga caggatgggt ttcggtcaaa aaattctagt ccctctagtc cttatagaaa 60
tgtccctact ggttacatcc agaataatat atgaccatca gcaagaagat aatcacgaag 120
ggcaacaagt tcaatacacc aattactatg gtcacgaaga gtctgccaca acagcacatt 180
tccaacaacc cgtccagttt cccgaggaac atagccaagg tttgcacaaa gaggaacaca 240
tcgattatta cgcaccagcc aagtattcct tcaaatatgg agtcaacgac taccacactg 300
gcgatataaa aagccaacac gaatccagag acggagatac tgtcaaaggc caatacacac 360
ttgtagaacc cgacggatct atcagaactg tagactacac tgctgacaaa cacagtggat 420
ttaacgcagt agtgcgcaaa tcaggtccca caaaacacat agaaggaagg catctggaac 480
accaacccga agaagagcaa catatacctc agcatcattt ggcagaagat catgttttac 540
cgcagtatca act gaacacc 560
<210>339
<211>831
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(807)
<223〉n=a, c, g or t/u
<400>339
ctcagttttg tcgacggtgt tgatcgaaga cgagtcatga aatttttgat tgttgccgca 60
ttggtgtttg gagcctgttc ggcagaacca cagaggcggc ctcattccta ctatgacaac 120
caggctgaac aagacacaaa cgtcccacaa aactaccaag ataactcaga tcaataccaa 180
cagaattctg tccaacaaaa cccaccgcaa catcaggaaa aatcgcaata tgaaccacga 240
gtaaaagaaa ctatcaaatt cataccaatt atcagattcg ataaagaaca aggagaagcc 300
ggtaattaca aagctgcata tgaaaccgga aacaacatta tcgctgaaga agaaggttac 360
ttgaaggaac tcggtccaga tccagaccag caaggacaag ttatcaaatc gcaagtacaa 420
cagggtcact tcacatatac atcccctgaa ggagtagtta ttgaaactaa atatactgct 480
gacgaaaacg gtttccatgt tgaaggagat catttgccaa ccccaccacc agttagcgcc 540
gaagtacaaa agggattgga ccttattttt gctggtatca gagctcaaca ggaggcgtta 600
gaacaaagat taaaagatca cccagaagaa agagacagac ctgaaaatta cgacgatggt 660
caataccgac cggcacaaca ggagtaattt tactctttat ttatagttta gcaccatcat 720
tctgtgattt tgtcgtcatt tctatagaat atcttctgta cagactgaat aagattgata 780
atacactgtg gaaaaaaaat tgataanaat caataaaaat ctttttacac a 831
<210>340
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>340
gattgttgcc gcattggtgt ttgg 24
<210>341
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>341
gacgacaaaa tcacagaatg atggtgc 27
<210>342
<211>690
<212>DNA
<213>Diabrotica virgifera
<400>342
gattgttgcc gcattggtgt ttggagcctg ttcggcagaa ccacagaggc ggcctcattc 60
ctactatgac aaccaggctg aacaagacac aaacgtccca caaaactacc aagacgactc 120
agatcaatac caacagaatt ctgtccaaca aaacccaccg caacatcagg aaaaatcgca 180
atatgaacca cgagtaaaag aaactatcaa attcatacca attatcagat tcgataaaga 240
acaaggagaa gccggtaatt acaaagctgc atatgaaacc ggaaacaaca ttatcgctga 300
agaaggaggt tacttgaagg aactcggtcc agatccagac tagcaaggac aagttatcaa 360
atcgcaagta caacagggtc acttcacata tacatcccct gaaggagtag ttattgaaac 420
taaatatact gctgacgaaa acggtttcca tgttgaagga gatcatttgc caaccccgcc 480
accagttagc gccgaagtac aaaagggatt ggaccttatt tttgctggta tcagagctca 540
acaggaggcg ttagaacaaa gattaaaaga tcacccagaa gaaagagaca gacctgaaaa 600
ttacgacgat ggtcaatacc gaccggcaca acaggagtaa ttttactctt tatttatagt 660
ttagcaccat cattctgtga ttttgtcgtc 690
<210>343
<211>633
<212>DNA
<213>Diabrotica virgifera
<400>343
caacactatg ttctctaaaa ttttgtcagt gttagccttc acagctttag cacaagctgg 60
cgttttagac tacagtcacg gccatgctac ctcatatgct tcctcaaacc taggtggttc 120
agaacatgga catggatatt cagctccagt tttaagtcac gcatatgctg cacctgttgc 180
tcacggatat tctgctcctg ttctcgccca cggacattcc gcacatcacg atgtagatta 240
caacgcttat cccaaatacg aattcaacta cggagttcaa gatggccaca ctggagacca 300
caaaactcaa cacgaagtcc gtgatggtga cgtagtcaaa ggttcctaca cagtagctga 360
acctgacggt actcttcgta ctgtccacta cactgctgat gaccacaacg gtttcaatgc 420
tgttgttgaa aaatctggac acccagttca cccagctcca gctcatggac acggaaaagt 480
actcctagct gctcccgctg tccaccacgc tccattgtac catcattaaa acctgaaaga 540
tgcatgttga ttattgttac tgtatttatt gactttgttg attgaattac tatgtaatta 600
atttttgtac ataaaataaa tttaattgaa tat 633
<210>344
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>344
ctaggtggtt cagaacatgg acatgga 27
<210>345
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>345
caggttttaa tgatggtaca atggagcgtg 30
<210>346
<211>421
<212>DNA
<213>Diabrotica virgifera
<400>346
ctaggtggtt cagaacatgg acatggatat tcagctccag ttttaagtca cgcatatgct 60
gcacctgttg ctcacggata ttctgctcct gttctcgccc acggacattc cgcacatcac 120
gatgtagatt acaacgctta tcccaaatac gaattcaact acggagttca agatggccac 180
actggagacc acaaaactca acacgaagtc cgtgatggtg acgtagtcaa aggttcctac 240
acagtagctg aacctgacgg tactcttcgt actgtccact acactgctga tgaccacaac 300
ggtttcaatg ctgttgttga aaaatctgga cacccagttc acccagctcc agctcatgga 360
cacggaaaag tactcctagc tgctcccgct gtccaccacg ctccattgta ccatcaaaac 420
c 421
<210>347
<211>698
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(14)
<223〉n=a, c, g or t/u
<400>347
aacatggcat tcanattagt tgctttcgcc gcattggtag cagtagctcg tgctggtgtc 60
atcggagaag cctactctgc accacttgcc tatgcagctc cagcagtagc taaggtagcc 120
tactcagccg ctccagctgt atcatactca agtgtgtcat cacctgtagc ttacgcagca 180
ccagctgttg ctaaattagc tgcacctgta tcttatgctg caccagcttt atcttacgct 240
gcaccagtcg ctaaagttgc ctactcatca gctccagctg tctcttactc cagtgtatcc 300
gcaccagtag cctacgccgc tgccccagcc tacgccaaag tagctgctcc agtatcgtac 360
gcagctccag ctgtttccta cgccgctcca gctctctcct atgccgcccc agcccttaaa 420
gtagctgccc cagtagctta tgccgctcct gttgccaaag cagtttacgc cgaaccatca 480
gcaccagcta actacgattt tggatatgcc gtaaacgacc cccacaccgg agatagcaaa 540
agccaacaag aatctcgcca cggtgatgtt gtacatggaa gctattccct tattgaagcc 600
gatggcagca aacgtaccgt agaatacacc gctgatgaac acaatggttt taatgcagtt 660
gtacacaagg aaccagccac agttgcggtt aaagcagt 698
<210>348
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>348
gctcgtgctg gtgtcatcgg agaag 25
<210>349
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>349
gcaactgtgg ctggttcctt gtgtac 26
<210>350
<211>641
<212>DNA
<213>Diabrotica virgifera
<400>350
gctcgtgctg gtgtcatcgg agaagcctac tctgcaccac ttgcctatgc agctccagca 60
gtagctaagg tagcctactc agccgctcca gctgtatcat actcaagtgt gtcatcacct 120
gtagcttacg cagcaccagc tgttgctaaa ttagctgcac ctgtatctta tgctgcacca 180
gctttatctt acgctgcacc agtcgctaaa gttgcctact catcagctcc agctgtctct 240
tactccagtg tatccgcacc agtagcctac gccgctgccc cagcctacgc caaagtagct 300
gctccagtat cgtacgcagc tccagctgtt tcctacgccg ctccagctct ctcctatgcc 360
gccccagccc ttaaagtagc tgccccagta gcttatgccg ctcctgttgc caaagcagtt 420
tacgccgaac catcagcacc agctaactac gattttggat atgccgtaaa cgacccccac 480
accggagata gcaaaagcca acaagaatct cgccacggtg atgttgtaca tggaagctat 540
tcccttattg aagccgatgg catcaaacgt accgtagaat acaccgctga tgaacacaat 600
ggttttaatg cagttgtaca caaggaacca gccacagttg c 641
<210>351
<211>977
<212>DNA
<213>Diabrotica virgifera
<400>351
attggaaata tagcaacatg gccgtcaaga ttaccttcag catccttata gcagttctat 60
tagccagaaa cagggtcgat gcctcaggag ttgcaccttt atttgctcca gcaccagtat 120
tagccccagc accagttcta gctccagctc cagttttggc caaagtttct gatgccacaa 180
ttgaccccaa tcctgcatat tcatttgcgt atgacgtgca ggatgcccta acaggagatt 240
caaaaggaca agttgaaagc agagccaacg gcgttgtaag aggacaatat caagtagcag 300
atccagacgg taccagaaga attgtagatt attacgccga tcctgtgcat ggattcaatg 360
ctgtggtcag aagagttcct ctaggtgttg cagttgctcc tgtcgtagcc aaagctgtag 420
ctcctgttgc tccaatcgct cccgtcgcta gatcattagt ccttcctgct ccagggcttc 480
cagttgctgc cgctcctgta ccagtagctc cagcattacc tttcgccgca ccagcagtag 540
caccagctct tccatttgcc gctgctccag ctgtagcacc agctcttcca ttcgcagctc 600
cagctgtagc accagcattg ccgtatgctg cagctccagc tatttctcca tacttaacca 660
gagctggatt cttcccagct ccagctccag ccgtagttcc tgctgctcca ggtcctgcat 720
acttgcctgc tgctccatca agattggttt caccctattc ggtagccgca cccttgcctt 780
caggtttgag gagtttagtg acccccttct cagcgggtcc tgctccacta gccgttggat 840
caggggtagc ggcgccgtat tggtaaaccc cggccgtgta ctaaatattg actgactata 900
tattttttaa gtagtttaca tttgttttat tgtttctagt atttttattg taaataaata 960
tcctatattt ttatctt 977
<210>352
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>352
caagattacc ttcagcatcc ttatagcagt tc 32
<210>353
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>353
gtcactaaac tcctcaaacc tgaaggcaag 30
<210>354
<211>777
<212>DNA
<213>Diabrotica virgifera
<400>354
caagattacc ttcagcatcc ttatagcagt tctattagcc agaaacaggg tcgatgcctc 60
aggagttgca cctttatttg ctccagcacc agtattagcc ccagcaccag ttctagctcc 120
agctccagtt ttggccaaag tttctgatgc cacaattgac cccaatcctg catattcatt 180
tgcgtatgac gtgcaggatg ccctaacagg agattcaaaa ggacaagttg aaagcagagc 240
caacggcgtt gtaagaggac aatatcaagt agcagatcca gacggtacca gaagaattgt 300
agattattac gccgatcctg tgcatggatt caatgctgtg gtcagaagag ttcctctagg 360
tgttgcagtt gctcctgtcg tagccaaagc tgtagctcct gttgctccaa tcgctcccgt 420
cgctagatca ttagtccttc ctgctccagg gcttccagtt gctgccgctc ctgtaccagt 480
agctccagca ttacctttcg ccgcaccagc agtagcacca gctcttccat ttgccgctgc 540
tccagctgta gcaccagctc ttccattcgc agctccagct gtagcaccag cattgccgta 600
tgctgcagct ccagctattt ctccatactt aaccagagct ggattcttcc cagctccagc 660
tccagccgta gttcctgctg ctccaggtcc tgcatacttg cctgctgctc catcaagatt 720
ggtttcaccc tattcggtag ccgcaccctt gccttcaggt ttgaggagtt tagtgac 777
<210>355
<211>1176
<212>DNA
<213>Diabrotica virgifera
<400>355
aaatctatca aacttttatt tatttagatt caaaatacga ttatttatac attaacgtta 60
ttaatccatg ggtattcgtc tggacaagga acacacgcgt ccatgtttct atcctctgtt 120
ccttttttaa gtctgcaggt gtaaggctca caactggctc catcgggcgc gtcagcagtt 180
ttaaaatcgc taattttaac gggatttttt ataaaatcta ggacctgttt ttgtgagacg 240
aagaaggtat cttttgcttc acgtgcaact gtgttttcca agaattttcg aagcccatcg 300
aagctggtgt cagtttgttc aaaccagtat gagttgatca tcaaatttat gggagttcta 360
gatttacttc taattccttc aatttgatca tccaaatatt tggcgatttc atcaacacta 420
ccttctattc cacaagtagc cagtgaattg cattctgtac catttggtga agttaaatcg 480
tttattggca gaatccaata acctgggaaa gcttcgttag gacattctgc gcccaaaaga 540
cattgttctg ttgattgata atccaatgta tagggaaata atcttcttga tggcaaagag 600
ggccatgaac tatcatatgc caattctgat gctatatagg cctcaatgga agtgtttcct 660
gcaagttgta gttggggagt tctgactcca ataatagctt cagctggtat gttggcataa 720
gtacttataa tttgcttttg gcctttaaat tcttttgtta gtgtgtctag agttgcatat 780
ctccagtaat tttgtctaaa atccttcgta attgagtgca caccaatttc aaatccaaag 840
ttgtacaaat cattaactct ttgatagctc gtatactcat gtggtacaaa gaatgttcca 900
ctaattggct tatcatctgg attatatata tttccgagca atgtaatcca actgttgtcg 960
tagatgtgtt gtgtaacagc ttcatcaaat gttaaactaa tcagctgagg atactctgtg 1020
agatctccac ctagaggtga cacttgacta gaacatctac aattgttgcc gatcgtacaa 1080
gaatcagact cacacggttt tgctacatca tttgcaatcg cactatcgaa tgctaaagta 1140
gctacgagaa ctaaaatcaa gcactggaac gttgcc 1176
<210>356
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>356
gcaaatgatg tagcaaaacc gtgtgag 27
<210>357
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>357
ggtattcgtc tggacaagga acacacg 27
<210>358
<211>1043
<212>DNA
<213>Diabrotica virgifera
<400>358
ggatcgtctg gacaaggaac acacgcgtcc atgtttctat cctctgttcc ttttttaagt 60
ctgcaggtgt aaggctcaca actggctcca tcgggcgcgt cagcagtttt aaaatcgcta 120
attttaacgg gattttttat aaaatctagg acctgttttt gtgagacgaa gaaggtatct 180
tttgcttcac gtgcaactgt gttttccaag aattttcgaa gcccatcgaa gctggtgtca 240
gtttgttcaa accagtatga gttgatcatc aaatttatgg gagttctaga tttacttcta 300
attccttcaa tttgatcatc caaatatttg gcgatttcat caacactacc ttctattcca 360
caagtagcca gtgaattgca ttctgtacca tttggtgaag ttaaatcatt tattggcaga 420
atccaataac ctgggaaagc ttcgttagga cattctgcgc ccaaaagaca ttgttctgtt 480
gattgataat ccaatgtata gggaaataat cttcttgatg gcaaagaggg ccatgaacta 540
tcatatgcca attctgatgc tatataggcc tcaatggaag tgtttcctgc aagttgtagt 600
tggggagttc tgactccaat aatagcttca gctggtatgt tggcataagt acttataatt 660
tgcttttggc ctttaaattc ttttgttagt gtgtctagag ttgcatatct ccagtaattt 720
tgtctaaaat ccttcgtaat tgagtgcaca ccaatttcaa atccaaagtt gtacaaatca 780
ttaactcttt gatagctcgt atactcatgt ggtacaaaga atgttccact aattggctta 840
tcatctggat tatatatatt tccgagcaat gtaatccaac tgttgtcgta gatgtgttgt 900
gtaacagctt catcaaatgt taaactaatc agctgaggat actctgtgag atctccacct 960
agaggtgaca cttgactaga acatctacaa ttgttgccga tcgtacaaga atcagactca 1020
cacggttttg ctacatcatt tgc 1043
<210>359
<211>649
<212>DNA
<213>Diabrotica virgifera
<400>359
ctattattca gatgtgccac aggtgaaaat tggcctagca taatgttatc gtgtgtgaaa 60
ggcaagatgt gtgacgaaaa ttcgggaaaa gacggacacc agtgtggtca caatatagct 120
tatgcctatt ttgtgtcatt tatattcttc tgttcgttct tgatgttaaa cttgttcgta 180
gccgtcatta tggacaattt tgattattta acacgtgatc cttccatatt gggtgctcat 240
catttagacg aattcgttag aatttgggca gaatacgatc caaatgccac aggaaaaatc 300
cactacagcg aaatgtacga catgttgaaa aatatggatc cgccactagg ctttggaaac 360
aagtgtccta atcgattagc gtataagaaa ttaattagga tgaacatgcc agtagacgac 420
gatgggaaag ttaattttac tacgacattc tttgctctcg tcagagaaaa tcttagcatt 480
aaaatgcgaa cagctgatga aatggaccag gccgatgacg aactcaaaga gacaatcaaa 540
aacatctggc cgatccaagc caagaacatg gtggagctgt tggttccacc gaccaaccag 600
ctcaccaccg gaaaatgtcc gtcggcaagt tatacgccgg tcttctgat 649
<210>360
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>360
ctattattca gatgtgccac aggtgaaaat tg 32
<210>361
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>361
cagatgtttt tgattgtctc tttgagttcg 30
<210>362
<211>547
<212>DNA
<213>Diabrotica virgifera
<400>362
ctattattca gatgtgccac aggtgaaaat tggcctagca taatgttatc gtgtgtgaaa 60
ggcaagatgt gtgacgaaaa ttcgggaaaa gacggacacc agtgtggtca caatatagct 120
tatgcctatt ttgtgtcatt tatattcttc tgttcgttct tgatgttaaa cttgttcgta 180
gccgtcatta tggacaattt tgattattta acacgtgatc cttccatatt gggtgctcat 240
catttagacg aattcgttag aatttgggca gaatacgatc caaatgccac aggaaaaatc 300
cactacagcg aaatgtacga catgttgaaa atatggatcc gccactaggc tttggaaaca 360
agtgtcctaa tcgattagcg tataagaaat taattaggat gaacatgcca gtagacgacg 420
atgggaaagt taattttact acgacattct ttgctctcgt cagagaaaat cttagcatta 480
aaatgcgaac agctgatgaa atggaccagg ccgatgacga actcaaagag acaatcaaaa 540
acatctg 547
<210>363
<211>677
<212>DNA
<213>Diabrotica virgifera
<400>363
caataggtat ggcctctgcg aaagatacgg ctacgttctt tactcacggc acctgtcaac 60
atttcgagca ggtcctcaag ttatatccac aagcccttcg attgaaagct gatagaaaag 120
ccaaaaagcc cgaggaactg attaaattag acaattggta tcagaatgaa ctaccgaaaa 180
ggatcaaaag tcgtggcaaa gatgcccact tagtacacga ggagttggta caatgcatga 240
aatggaaaca gaccaggggg aagttcttcc cccaattatc gtatttggta aaggttaaca 300
ctcctagagc tgttatggca gaaacgaaga gagcctttag aaaattgccc aatcttgagt 360
tggcgatgtc agcgctctca aatttgaaag gagtcggtac cacaatggcc tcagcattac 420
tggcggctgc ttgtccagac agcgccccct ttatggcaga tgaatgtctg atggccatac 480
cagacatcga aggtattgat tacaccacca aggagtacct gaaattcgcc aaccacatca 540
aatccgtcgt cgagagatta aacaaggccg cagaagaaag gtcagaggct gtacgttggt 600
cgccacacaa ggacgagtta gctctttgga cacctacgtt gtctccgaac acaaaccaga 660
gttgctctct agtattt 677
<210>364
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>364
gttctttact cacggcacct gtcaaca 27
<210>365
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>365
ctaactcgtc cttgtgtggc gacc 24
<210>366
<211>587
<212>DNA
<213>Diabrotica virgifera
<400>366
gttctttact cacggcacct gtcaacattt cgagcaggtc ctcaagttat atccacaagc 60
ccttcgattg aaagctgata gaaaagccaa aaagcccgag gaactgatta aattagacaa 120
ttggtatcag aatgaactac cgaaaaggat caaaagtcgt ggcaaagatg cccacttagt 180
acacgaggag ttggtacaat gcatgaaatg gaaacagacc agggggaagt tcttccccca 240
attatcgtat ttggtaaagg ttaacactcc tagagctgtt atggcagaaa cgaagagagc 300
ctttagaaaa ttgcccaatc ttgagttggc gatgtcagcg ctctcaaatt tgaaaggagt 360
cggtaccaca atggcctcag cattactggc ggctgcttgt ccagacagcg ccccctttat 420
ggcagatgaa tgtctgatgg ccataccaga catcgaaggt attgattaca ccaccaagga 480
gtacctgaaa ttcgccaacc acatcaaatc cgtcgccgag agattaaaca aggccgcaga 540
agaaaggtca gaggctgtac gttggtcgcc acacaaggac gagttag 587
<210>367
<211>882
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(792)..853)
<223〉n=a, c, g or t/u
<400>367
ggagaaacta acatcgttga caaccatggc ggataaagaa aagaaggtca agaagaagaa 60
gaaggaagag ggcgaagcac ctgctgccgc tcctgccccc gccgaaacca ggtcctcctc 120
aaagagttcc tccaagaaag ccaaaaggtc tggttccaat gtcttctcca tgttttcgca 180
atctcaagta gctgaattca aagaagcttt ccaacttatg gaccacgaca aagatggcat 240
catctctaag agcgatttga gggccacctt cgatgctgtt ggtaaactcg ccagtgagaa 300
agagctcgac gagatgatca acgaagcacc cggaccaatc aacttcactc aattgttggg 360
attgttcggt acccgtatgg ctgattccgg cggtactgac gatgatgaag ttgtcgtcaa 420
ggctttcaga tcctttgacg aaaacggcac cattgacgga gacagattcc gtcatgccct 480
catgacctgg ggagaaaaat tcaccggcaa agaatgcgac gacgccttcg atgccatgga 540
catcgacgac aacaacagga tcgataccca ggcacttatc accctcttaa cagcagccga 600
gaaggaagaa ggtgaagaag gcgaagcagc ataaacacca tcataactta taacagaaag 660
tcaatgtaaa tcttcacggc taccgtgtgg ttccactaag acgaaaacat caattcggat 720
acatctaagt gtggtgtgtt tcttatataa ttccaatgaa cacataagaa aaggtgtact 780
tatatgtgta tnttattatg tatttgtttt taagtttatt tttattcagt tgctttacca 840
tcacgcgact canaagaaat aatatattat tttttgtttc at 882
<210>368
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>368
ggcggataaa gaaaagaagg tcaagaag 28
<210>369
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>369
cacaccacac ttagatgtat ccgaattgat g 31
<210>370
<211>711
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(631)
<223〉n=a, c, g or t/u
<400>370
ggcggataaa gaaaagaagg tcaagaagaa gaagaaggaa gagggcgaag caccagctgc 60
cgctcctgcc cccgccgaaa ccaggtcctc ctcaaagagt tcctccaaga aagccaaaag 120
gtctggttcc aatgacttct ccatgttttc gcaatctcaa gtagctgaat tcaaagaagc 180
tttccaactt atggaccacg acaaagatgg catcatctct aagagcgatt tgagggccac 240
cttcgatgct gttggtaaac tcgccagtga gaaagagctc gacgagatga tcaacgaagc 300
acccggacca atcaacttca ctcaattgtt gggattgttc ggtacccgta tggctgattc 360
cggcggtact gacgatgatg aagtcgtcgt caaggctttc agatcctttg acgaaaacgg 420
caccattgac ggagacagat tccgccatgc cctcatgacc tggggagaaa aattcaccgg 480
caaagaatgc gacgacgctt tcgatgccat ggacatcgac gacaacaaca ggatcgacac 540
ccaggcactt atcaccctct taacagcagc cgagaaggaa gaaggtgaag aaggcgaagc 600
agcataaaca ccatcataac ttacaactga nagtcaatgt aaatcttcac ggctaccgtg 660
tggttccact aagacgaaaa catcaattcg gatacatcta agtgtggtgt g 711
<210>371
<211>2918
<212>DNA
<213>Diabrotica virgifera
<400>371
gtagagttga ggaagatgtg caaagtgttg aaaagtttat gtacatgaat tgtagaaact 60
aattgtttat tgtgtatcat tcgaattcag tttcaaaatt aaaagtgtgc tagtggagaa 120
aactaaacga taacttctgt ttatactgtt gtttttatcg tttaacaatg gctctctttc 180
ttctaggttt gttgttctgc ctatctagtc ggatctctgc cagtggtttc tacgaaatca 240
gtaacattga cttctataat tctgttttta cagattctct tgattggaga ttgttacagg 300
agctatcaaa ccagtataaa aacgtagtga tatctcccat cagcctaaaa atcatattat 360
ccctattata tcaaggatct accggacaga cagaaaggga attccaaaca cttttaaatt 420
atcaaaataa agaatatgtc aggaacaatt acagccaaat tgtcgctgcc ctttataatg 480
cagacagaac tgaatatatg ctcaacattg ggacatcgat gtttgtagat gaaggtctat 540
acgttttatc taaattcgaa gaccttgcaa gaaaaagctt caaaacagac atcataaaga 600
ctaactttga caaacaggaa aaggctagta aagatattaa ttcgtgggtg gaacagctta 660
ctcatggtaa agtgaagaaa atagtcaatg ctgatgatct gtcgcaagca ctaatgataa 720
ttaccaatgc catttacttc aaaggaacat ggactcgtaa atttgataaa aatagatcaa 780
cgcttggaaa cttctataca tctcctgata atataagatc tagcagaaac ttaaaattag 840
ttcaatacat gactaccact gacgaatttc tttattacga ggacagatct ttggatgcga 900
aaattgtcag gttggaatac aagggaagtg actatgccat gtatatagtc ctaccgaaca 960
ctttgggagg attaagcagc cttatcaaaa atgtggacat aaacaaaata ggaactataa 1020
agttccaaat gacacaacaa gttgttgagg ttactattcc aaagtttaag ttcaattttg 1080
acatcaagtt gggaaagatt cttcaaaagt ttggactacg cgaagcattc caaaacacgg 1140
ccagttttac aggcatcgtg caaaccaaca ggaccttaag aaggagtcta tacgtatctg 1200
acattgttca gaaatcggga atagaagttg atgaagaagg aagtgaaatc ttctcagcat 1260
cagctgtcaa cgtgggtaat aaattcgccg aaaatacgat gatattcaat gcatcacatc 1320
cgttcatgtt ctttgttgat ggtcccaacg gtaccatatt gtttgttgga caatatgaaa 1380
atccagatgc ggtggacccg tcagaggtac cgaatcgttg gagtcaagaa gtagaagaaa 1440
aaaatcctac tgaagctgtg caattccaaa atactcgccc aagtagacca aataatgaaa 1500
ttgatcaatc caataatgta cagttccaac agcctcgtcc aaatagacca agtgttgaaa 1560
gtcaacgacc cgacaatgta caattccaac agaatcgccc aaatagacca aatactgaaa 1620
atgaacagcc cagcaatgta caaggtctta atttgaatcc aaatctggac cccgactact 1680
atcaacctcc agatgtagaa atggatgaga ttgcatatag attcaatctg tttgatattg 1740
acttattata ttccttttct gatttatcca cgaacgtatt aatatctccc gctagcatca 1800
aaacgacatt agcaatgatt ttagaaggag cagaaggaac ttgtgcagaa gaaataagtg 1860
aagcactgag gatacctgat attaatcaaa aaggtgtcag aagtgttctt gtagaacttc 1920
taaataatct taatgaaaga tctacgccaa atagtgtcct agaaagccat aatgccatat 1980
ttgtctctga aaaacatcga ctggttgata attataagaa tgtcgttata aagtattaca 2040
acgcttacct gaaaagctta gatttttcaa attcagatta tgctgctagg gtcattaatg 2100
gatggatatc tgactccact catggcgaaa taaccgatgt catctcacca caggggatag 2160
ttcctgattg ttacgtggtg ctgtcaaacg ccctgttctt taaagcacag tggaaatatg 2220
cttttgataa aagaagtgta cgaaaatgtt tccacactcc taggggatgt gtttatgttg 2280
acatgatgca catttcacat aatttcaatt acaattacat cacccgtttg cgagccaatg 2340
ttgtggatat tccttatcag gataaattct ccatgctact gatcttacca tcttcagatt 2400
caaatgtaag gagtgtgatt cgggatttac ctcactttag actgtcgagc attttggaga 2460
gtctaaatca atccgagatt gttctagaac taccaacatt tagcttcgag tattcagcag 2520
atttggttga atttttaaaa cctcttaaaa tccgagaaat atttggttcc cgcgctaact 2580
taaccaaaat gatagaaggc caccatggta tgataaacaa cctgttacac aagaccaaaa 2640
tcacagtaga cgaaaaagga acaactgccg cagcatcctc cagtgccatg ataattcccc 2700
tgatgcagcc agtgacagtt gcggctgaca gaccgtttgt ttttatgatc tatcacagag 2760
acactaaaaa tataatcttt gaaggaattg tacaaaatcc tttagaaaaa tagtatctaa 2820
cattactgat aattttttat ttaatgtgcc gaaaactcat ctaggttaga tctcttcaaa 2880
ctgtagttac gtgtaaaaat tggtctgtat ttgctttt 2918
<210>372
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>372
ctagtcggat ctctgccagt ggtttc 26
<210>373
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>373
ccttcttcat caacttctat tcccgatttc 30
<210>374
<211>1036
<212>DNA
<213>Diabrotica virgifera
<400>374
ctagtcggat ctctgccagt ggtttctacg aaatcagtaa cattgacttc tataattctg 60
tttttacaga ttctcttgat tggagattgt tacaggagct atcaaaccag tataaaaacg 120
tagtgatatc tcccatcagc ctaaaaatca tattatccct attatatcaa ggatctaccg 180
gacagacaga aagggaattc caaacacttt taaattatca aaataaagaa tatgtcagga 240
acaattacag ccaaattgtc gctgcccttt ataatgcaga cagaactgaa tatatgctca 300
acattgggac atcgatgttt gtagatgaag gtctatacgt tttatctaaa ttcgaagacc 360
ttgcaagaaa aagcttcaaa acagacatca taaagactaa ctttgacaaa caggaaaagg 420
ctagtaaaga tattaattcg tgggtggaac agcttactca tggtaaagtg aagaaaatag 480
tcaatgctga tgatctgtcg ctagcactaa tgataattac caatgccatt tacttcaaag 540
gaacatggac tcgtaaattt gataaaaata gatcaacgct tggaaacttc tatacatctc 600
ctgataatat aagatctagc agaaacttaa aattagttca atacatgact accactgacg 660
aatttcttta ttacgaggac agatctttgg atgcgaaaat tgtcaggttg gaatacaagg 720
gaagtgacta tgccatgtat atagtcctac cgaacacttt gggaggatta agcagcctta 780
tcaaaaatgt ggacataaac aaaataggaa ctataaagtt ccaaatgaca caacaagttg 840
ttgaggttac tattccaaag tttaagttca attttgacat caagttggga aagattcttc 900
aaaagtttgg actacgcgaa gcattccaaa acacggccag ttttacaggc atcgtgcaaa 960
ccaacaggac cttaagaagg agtctatacg tatctgacat tgttcagaaa tcgggaatag 1020
aagttgatga agaagg 1036
<210>375
<211>620
<212>DNA
<213>Diabrotica virgifera
<400>375
gatcggcgct cgactagtag tcggagtagg gcggccaaag taattttttg attattatag 60
ttaattggtt tattttaaat taggtattaa gaaaaaatca aaatatggct attaatctac 120
aatatgacgc cataggcaaa agttttgtcc aacaatatta tatgcttttc gatgatccaa 180
accaaaggcc taatttggta aacatgtata atgtagaaca ttcatttatg acctttgaag 240
gcaagcaatt acaaggatct gcaaagataa tggagaaatt aaattcctta ggattccaaa 300
atataaatag acaacttact gaagtagact ctcaacctat gtttgatggt ggtgtactga 360
taaatgtatt aggtagattg caagttgata atgatccacc acacgcttat acacaagttt 420
ttgttttaaa accattaaat ggatcatttt ttgttcaaca tgacattttt aggctgaaca 480
tacacaatag tgcctgattt tattacatct cctctccttc tttatgttgt atgttcgaat 540
caactgaaaa tatgcaattt ttaaaatctc ctgtatctgt ttctgcttaa tatgaattca 600
caataataaa cttattttct 620
<210>376
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>376
ctattaatct acaatatgac gccataggca aaag 34
<210>377
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>377
cgaacataca acataaagaa ggagaggaga tg 32
<210>378
<211>429
<212>DNA
<213>Diabrotica virgifera
<400>378
ctattaatct acaatatgac gccataggca aaagttttgt ccaacaatat tatatgcttt 60
tcgatgatcc aaaccaaagg cctaatttgg taaacatgta taatgtagaa cattcattta 120
tgacctttga aggcaagcaa ttacaaggat ctgcaaagat aatggagaaa ttaaattcct 180
taggattcca aaatataaat agacaactta ctgaagtaga ctctcaacct atgtttgatg 240
gtggtgtact gataaatgta ttaggtagat tgcaagttga taatgatcca ccacacgctt 300
atacacaagt ttttgtttta aaaccattaa atggatcatt ttttgttcaa catgacattt 360
ttaggctgaa catacacaat agtgcctgat tttattacat ctcctctcct tctttatgtt 420
gtatgttcg 429
<210>379
<211>846
<212>DNA
<213>Diabrotica virgifera
<400>379
agctattttt tatgtttatt ttttgttatt ataatttaca attaatttcc gttgcagtat 60
tcaaagtttt attaaaacat ttatcgtaaa tttagtgtta ttgttcctca agcagaattt 120
ttatagaaga aaacatggaa actcccggcg ccagcagagc cccttccaaa ctggagcaga 180
cccagcaaca ggtgaatgaa gttgtgggta ttatgagagt aaacgtcgag aaagttctag 240
agagggacca gaaactttca gagctcgata gtcgagctga tgcccttcaa gaaggcggca 300
aaaggttcga gcagcaagca caaaagttga aacgaaagta ttggtggaaa aatataaaga 360
tgatgattat tatgggggtt ataggcctca ttattttaat tatcattata atttccattg 420
ctaatgcagt taagggcgac gacaccacat cctcaagcgt aacgtcggct cctccaaaat 480
gaaattaaat gtttacggat ctttctgtat ttgattatat attctgtatt tgattatata 540
tatttattgt tgcattatac ttaaaaataa gaacaaaata ttttacaatt ctatgtttgc 600
tttatgtcat tattttaaat atattattcc atagaatatg gtgtttctgt ttaaaaagtg 660
aacacctatc agttgtgtaa gtattgagaa tttgtttttc attattatgg gcataggcgc 720
aaaatgtcgc ctgtcaaaat gttcaatgtg ttttaaatgt attcattttt tttttcgaat 780
cctgagaaaa ctaataaata tttttgaaaa atataaacgc agaatgaaag attgcattat 840
tactga 846
<210>380
<211>35
<212>DNA
<213>Diabrotica virgifera
<400>380
gtgttattgt tcctcaagca gaatttttat agaag 35
<210>381
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>381
cacattgaac attttgacag gcgaca 26
<210>382
<211>656
<212>DNA
<213>Diabrotica virgifera
<400>382
gtgttattgt tcctcaagca gaatttttat agaagaaaac atggaaactc ccggcgccag 60
cagagcccct tccaaactgg agcagaccca gcaacaggtg aatgaagttg tgggtattat 120
gagagtaaac gtcgagaaag ttctagagag ggaccagaaa ctttcagagc tcgatagtcg 180
agctgatgcc cttcaagaag gcggcaaaag gttcgagcag caagcacaaa agttgaaacg 240
aaagtattgg tggaaaaata taaagatgat gattattatg ggggttatag gcctcattat 300
tttaattatc attataattt ccattgctaa tgcagttaag ggcgacgaca ccacatcctc 360
aagcgtaacg tcggctcctc caaaatgaaa ttaaatgttt acggatcttt ctgtatttga 420
ttatatattc tgtatttgat tatatatatt tattgttgca ttatacttaa aaataagaac 480
aaaatatttt acaattctat gtttgcttta tgtcattatt ttaaatatat tattccatag 540
aatatggtgt ttctgtttaa aaagtgaaca cctatcagtt gtgtaagtat tgagaatttg 600
tttttcatta ttatgggcat aggcgcaaaa tgtcgcctgt caaaatgttc aatgtg 656
<210>383
<211>841
<212>DNA
<213>Diabrotica virgifera
<400>383
gtgaatcatg tgtttaatta agttatagta tttattctat attaaattac gtagaatata 60
atctctctgt gttgctttac acattaacta tgtataaaaa tgttacaaag gatgattggt 120
ccaaggagaa tacagagaat cgttttggca acctttatat tttccgttct acatatattt 180
ggagtttttc atcatatttt tgagactgat ttttatacaa actttcatta tccctacgat 240
ggggatatag aacatttaat acagcaattg aaggatggca agccacctga tgttttacct 300
attaattcct atcactttga atataacaag aaatgtgttt caaaatgttc cagtatgaaa 360
cagttaagat tggtttatat aataaagagt gctccagagc attttgatcg cagaattgga 420
atacgcaatt catgggggta tgaaaggcga ttttctgatg cagaaataag aactgtcttt 480
ttggttggag aacgaaattc acatgcttta aaagagtcat taaaagaaga atactcaaag 540
tttcatgata ttgtccatgc caattttaca gatagttact acaacaatac ttacaaaact 600
atgatgggct tgcagtgggc tgtcaggtat tgtccaaatt cacaatatta tatgtttgtt 660
gatgatgatt actacgtgtc caccaaaaat gttttaaagg atttgaaaat cccacaagta 720
ttcagaatat gtaaagaacc tcttaatgga gttagtccac tttttaataa aaaaaaaatc 780
ttgtttataa tgatttaaat gaggatgaaa aattattttc aggttatgta tttccatccc 840
c 841
<210>384
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>384
ggagaataca gagaatcgtt ttggcaac 28
<210>385
<211>36
<212>DNA
<213>Diabrotica virgifera
<400>385
ggactaactc cattaagagg ttctttacat attctg 36
<210>386
<211>636
<212>DNA
<213>Diabrotica virgifera
<400>386
ggagaataca gagaatcgtt ttggcaacct ttatattttc cgttctacat atatttggag 60
tttttcatca tatttttgag actgattttt atacaaactt tcattatccc tacgatgggg 120
atatagaaca tttaatacag caattgaagg atggcaagcc acctgatgtt ttacctatta 180
attcctatca ctttgaatat aacaagaaat gtttttcaaa atgttccagt atgaaacagt 240
taagattggt ttatataata aagagtgctc cagagcattt tgatcgcaga attggaatac 300
gcaattcatg ggggtatgaa aggcgatttt ctgatgcaga aataagaact gtctttttgg 360
ttggagaacg aaattcacat gctttaaaag agtcattaaa agaagaatac tcaaagtttc 420
atgatattgt ccatgccaat tttacagata gttactacaa caatacttac aaaactatga 480
tgggcttgca gtgggctgtc aggtattgtc caaattcaca atattatatg tttgttgatg 540
atgattacta cgtgtccaca aaaaatgttt taaggtattt gaaacatccc acaaagtatc 600
cagaatatgt aaagaacctc ttaatggagt tagtcc 636
<210>387
<211>2158
<212>DNA
<213>Diabrotica virgifera
<400>387
gccattgggc gatagtctct ccatggaaaa ttaatatttg gaagaaagta tccataagta 60
atattctgtc aggttgaatg gagctagtat ctagtaatac aggctatgat ggaccattga 120
aactataact atacaaatta ggttgaatca ttatcaaaga ttgagtaaga tcttccctca 180
tcaacatgtg tctgtagaat gaagtctcgt ccggagaatt attgaatact tgaagaaatt 240
gagatcttct taagtgatac atgaactgtg ggtaaagact gaagttttga ccaagtctga 300
atgaattggg gtcgtcctta ttgtattctc cgaatttttg acacaatcta atcagcattc 360
tgtcaaccca tctaagaaca tctggactat catcagattc tgccctataa acggccatcc 420
tagccattat tacagcagca gcttcttgat cgaatccggc actgatatgg tgtatattag 480
cagttgcgtc agcccaattt cgagccactg ttgttactct gatttttctt tgaccacttg 540
aatgctggta ctgcgtaata aattgtatac aacctctacc accttgaggt atgggagcag 600
aatgttgatt tacgacctca aagaataaag acatggtagt acttggcgtt aaagtacaca 660
ttttccattg cacagtatta cccattccta tttctgtgtc ggaaaccaag gggctcttca 720
cgttaagtga tacacacgaa ccgatacctc cttgaacttt taattctcgg gaacacttca 780
cttccaaagt accgttaaat gccattttca gatcactttt ttgatctctg gtaaacacac 840
gttggaaagt ttgcttaaac aaggaagaat taaatgaatc ccccattacc atgtgtcccc 900
cagtagaatt acagcattgc ttcatttcca tcagacctgt ctgatccaaa gcacaagaat 960
aaatatcaac agagtgacca ttagttgcgg ctctcattgc taacgcatca taatgtttaa 1020
tacctttctt catatatttt gcattatctt tctgaatatc atgatgtgat ctaataggct 1080
gttttaaatc atcattaact acctgaccag gtccttgtga gcaaggtcct ccaacaaata 1140
gcataactcg ggcgccagta ttggaatatg tacattctaa caaaccaatg gcaatcgata 1200
aagctacacc tgtagatctt aaataccttt taccctgatg aacaggccaa ggatctttct 1260
gttgttctcc tattaggtct gttagattca tatcgcattt ggatacaggt tgtagaaacc 1320
tgcttcctgg tgcaacaaca gtaggttgca tttgcccagg tcttagaggc tgccctggct 1380
gttgaggggc ttgctgacct aaagccactt tgcctattcc cagcatttct tgaacctgtt 1440
tagcactaag atcttttgta cctctgaaca catatgactt actacaacct tcagtgccaa 1500
gttcatgaac ttgaaccatt ttcccaaatg ttattagtcc tattaacgca ttaggtggca 1560
acaaactaag ggacatttgc aatgagtctt tcagggaacc cagttcttca tcatccatgc 1620
aggtgtcaac aacatacaaa aatattggtg gtaaacattg agctctagtt attgtgtatt 1680
caatggtgga aaacataggc atcaattccg ctggttgatg ttgttctgaa atagcagcat 1740
attgaggtgg aaatggattt ctctggaaac aaaagttgca tacccagagt tttgctcgat 1800
aatctacctg acacagtggg tttaatattg ctctacaagt atttctagta cataaaacag 1860
ggtcatattg tattggtgga agatccagac gttcctttat aggctggtac agacaagcta 1920
agggtactac gagacgggta gcttcaattc tgcttgaagg ccatacattc caggtaaatc 1980
taatcccatc tcgatcttca ttttgttgta tatactcttc atatgtgctc atttttgaag 2040
attacaagtc ggaattccct aaggaaattc ctcaatatat attattagga ttctatcatg 2100
taaataacac tattattgag ctcctaaaaa ttacacctaa ttgtttcaga atttgaac 2158
<210>388
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>388
gtcactctgt tgatatttat tcttgtgctt tgg 33
<210>389
<211>35
<212>DNA
<213>Diabrotica virgifera
<400>389
ctgtcaggtt gaatggagct agtatctagt aatac 35
<210>390
<211>913
<212>DNA
<213>Diabrotica virgifera
<400>390
gtcactctgt tgatatttat tcttgtgctt tggatcagac aggtctgatg gaaatgaagc 60
aatgctgtaa ttctactggg ggacacatgg taatggggga ttcatttaat tcttccttgt 120
ttaagcaaac tttccaacgt gtgtttacca gagatcaaaa aagtgatctg aaaatggcat 180
ttaacggtac tttggaagtg aagtgttccc gagaattaaa agttcaagga ggtatcggtt 240
cgtgtgtatc acttaacgtg aagagcccct tggtttccga cacagaaata ggaatgggta 300
atactgtgca atggaaaatg tgtactttaa cgccaagtac taccatgtct ttattctttg 360
aggtcgtaaa tcaacattct gctcccatac ctcaaggtgg tagaggttgt atacaattta 420
ttacgcagta ccagcattca agtggtcaaa gaaaaatcag agtaacaaca gtggctcgaa 480
attgggctga cgcaactgct aatatacacc atatcagtgc cggattcgat caagaagctg 540
ctgctgtaat aatggctagg atggccgttt atagggcaga atctgatgat agtccagatg 600
ttcttagatg ggttgacaga atgctgatta gattgtgtca aaaattcgga gaatacaata 660
aggacgaccc caattcattc agacttggtc aaaacttcag tctttaccca cagttcatgt 720
atcacttaag aagatctcaa tttcttcaag tattcaataa ttctccggac gagacttcat 780
tctacagaca catgttgatg agggaagatc ttactcaatc tttgataatg attcaaccta 840
ttttgtatag ttatagtttc aatggtccac cagagcctgt attactagat actagctcca 900
ttcaacctga cag 913
<210>391
<211>2158
<212>DNA
<213>Diabrotica virgifera
<400>391
gccattgggc gatagtctct ccatggaaaa ttaatatttg gaagaaagta tccataagta 60
atattctgtc aggttgaatg gagctagtat ctagtaatac aggctatgat ggaccattga 120
aactataact atacaaatta ggttgaatca ttatcaaaga ttgagtaaga tcttccctca 180
tcaacatgtg tctgtagaat gaagtctcgt ccggagaatt attgaatact tgaagaaatt 240
gagatcttct taagtgatac atgaactgtg ggtaaagact gaagttttga ccaagtctga 300
atgaattggg gtcgtcctta ttgtattctc cgaatttttg acacaatcta atcagcattc 360
tgtcaaccca tctaagaaca tctggactat catcagattc tgccctataa acggccatcc 420
tagccattat tacagcagca gcttcttgat cgaatccggc actgatatgg tgtatattag 480
cagttgcgtc agcccaattt cgagccactg ttgttactct gatttttctt tgaccacttg 540
aatgctggta ctgcgtaata aattgtatac aacctctacc accttgaggt atgggagcag 600
aatgttgatt tacgacctca aagaataaag acatggtagt acttggcgtt aaagtacaca 660
ttttccattg cacagtatta cccattccta tttctgtgtc ggaaaccaag gggctcttca 720
cgttaagtga tacacacgaa ccgatacctc cttgaacttt taattctcgg gaacacttca 780
cttccaaagt accgttaaat gccattttca gatcactttt ttgatctctg gtaaacacac 840
gttggaaagt ttgcttaaac aaggaagaat taaatgaatc ccccattacc atgtgtcccc 900
cagtagaatt acagcattgc ttcatttcca tcagacctgt ctgatccaaa gcacaagaat 960
aaatatcaac agagtgacca ttagttgcgg ctctcattgc taacgcatca taatgtttaa 1020
tacctttctt catatatttt gcattatctt tctgaatatc atgatgtgat ctaataggct 1080
gttttaaatc atcattaact acctgaccag gtccttgtga gcaaggtcct ccaacaaata 1140
gcataactcg ggcgccagta ttggaatatg tacattctaa caaaccaatg gcaatcgata 1200
aagctacacc tgtagatctt aaataccttt taccctgatg aacaggccaa ggatctttct 1260
gttgttctcc tattaggtct gttagattca tatcgcattt ggatacaggt tgtagaaacc 1320
tgcttcctgg tgcaacaaca gtaggttgca tttgcccagg tcttagaggc tgccctggct 1380
gttgaggggc ttgctgacct aaagccactt tgcctattcc cagcatttct tgaacctgtt 1440
tagcactaag atcttttgta cctctgaaca catatgactt actacaacct tcagtgccaa 1500
gttcatgaac ttgaaccatt ttcccaaatg ttattagtcc tattaacgca ttaggtggca 1560
acaaactaag ggacatttgc aatgagtctt tcagggaacc cagttcttca tcatccatgc 1620
aggtgtcaac aacatacaaa aatattggtg gtaaacattg agctctagtt attgtgtatt 1680
caatggtgga aaacataggc atcaattccg ctggttgatg ttgttctgaa atagcagcat 1740
attgaggtgg aaatggattt ctctggaaac aaaagttgca tacccagagt tttgctcgat 1800
aatctacctg acacagtggg tttaatattg ctctacaagt atttctagta cataaaacag 1860
ggtcatattg tattggtgga agatccagac gttcctttat aggctggtac agacaagcta 1920
agggtactac gagacgggta gcttcaattc tgcttgaagg ccatacattc caggtaaatc 1980
taatcccatc tcgatcttca ttttgttgta tatactcttc atatgtgctc atttttgaag 2040
attacaagtc ggaattccct aaggaaattc ctcaatatat attattagga ttctatcatg 2100
taaataacac tattattgag ctcctaaaaa ttacacctaa ttgtttcaga atttgaac 2158
<210>392
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>392
ccgacttgta atcttcaaaa atgagcac 28
<210>393
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>393
gctaacgcat cataatgttt aatacctttc ttc 33
<210>394
<211>1054
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(234)
<223〉n=a, c, g or t/u
<400>394
ccgacttgta atcttcaaaa atgagcacat atgaagagta tatacaacaa aatgaagatc 60
gagatgggat tagatttacc tggaatgtat ggccttcaag cagaattgaa gctacccgtc 120
tcgtagtacc cttagcttgt ctgtaccagc ctataaagga acgtctggat cttccaccaa 180
tacaatatga ccctgtttta tgtactagaa atacttgtag agcaatatta aacnccactg 240
tgtcaggtag attatcgagc aaaactctgg gtatgcaact tttgtttcca gagaaatcca 300
tttccacctc aatatgctgc tatttcagaa caacatcaac cagcggaatt gatgcctatg 360
ttttccacca ttgaatacac aataactaga gctcaatgtt taccaccaat atttttgtat 420
gttgttgaca cctgcatgga tgatgaagaa ctgggttccc tgaaagactc attgcaaatg 480
tcccttagtt tgttgccacc taatgcgtta ataggactaa tacatttggg aaaatggttc 540
aagttcatga atttggcact gaaggttgta gtaagtcata tgtgttcaga ggtacaaaag 600
atcttagtgc taaacaggtt caagaaatgc tgggaatagg caaagtggct ttaggtcagc 660
aagcccctca acagccaggg cagcctctaa gacctgggca aatgcaacct actgttgttg 720
caccaggaag caggtttcta caacctgtat ccaaatgcga tatgaatcta acagacctaa 780
taggagaaca acagaaagat ccttggcctg ttcatcaggg taaaaggtat ttaagatcta 840
caggtgtagc tttatcgatt gccattggtt tgttagaatg tacatattcc aatactggcg 900
cccgagttat gctatttgtt ggaggacctt gctcacaagg acctggtcag gtagttaatg 960
atgatttaaa acagcctatt agatcacatc atgatattca gaaagataat gcaaaatata 1020
tgaagaaagg tattaaacat tatgatgcgt tagc 1054
<210>395
<211>910
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(833)..(893)
<223〉n=a, c, g or t/u
<400>395
ggagagtaca cgtcaacgtc atctcagttt ggtttattgt tgggtgtaat gtttaaataa 60
aataattatt attttgtaaa cctgtgccat taaacaaata aagcgatggt gctaattgca 120
gcagcagtct gcacgaaagc aggcaaaaca attgtgtctc gacaatttgt tgaaatgacc 180
aaagctagaa tagaaggttt gttggctgcc tttcctaaat taattcctac aggaacccag 240
catacatttg tggaaacaga ttcagtacgg tatgtttatc aacccctaga gaaactgtat 300
atggttctta ttacaactag agctagcaac atattagaag atcttgaaac cctccgtcta 360
ttcgcaagag tgattcctga gtactgcaaa tctttggatg aaaatgaaat tgcagagaat 420
gcattttcac ttatatttgc ttttgatgaa atagtggcat taggttatag ggaaagtgtc 480
aatctgtctc aaattcgcac atttgtggaa atggactcgc acgaagaaaa agtttatcag 540
gccgtgagac agactcaaga gcgcgaggcc aagaatatga tgagagaaaa ggcaaaagaa 600
cttcagagac agaagatcga agcggccaaa aaaggaggga agacctcgtt tggtagtagc 660
ggtggctttg gcagctcgac aggttatact cctacgccat ctgttggtga tgtagctaac 720
cagacaaatg atgttaaaac ttcttcatac acaccagccc ctgcgcaaaa acctcggggt 780
atgaaattag gtggaaaagg tagagatgta gaatcattcg tagatcagct tanatcggaa 840
ggagaaaacg tcattactcc aaaacaaaat agtatttcac agccaggaac tanagctcca 900
gctatcaaaa 910
<210>396
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>396
gagtacacgt caacgtcatc tcagtttgg 29
<210>397
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>397
gctgatctac gaatgattct acatctctac ct 32
<210>398
<211>826
<212>DNA
<213>Diabrotica virgifera
<400>398
gagtacacgt caacgtcatc tcagtttggt ttattgttgg gtgtaatgtt taaataaaat 60
aattattatt ttgtaaacct gtgccattaa acaaataaag cgatggtgct aattgcagca 120
gcagtctgca cgaaagcagg caaaacaatt gtgtctcgac aatttgttga aatgaccaaa 180
gctagaatag aaggtttgtt ggctgccttt cctaaattaa ttcctacagg aacccagcat 240
acatttgtgg aaacagattc agtacggtat gtttatcaac ccctagagaa actgtatatg 300
gttcttatta caactagagc tagcaacata ttagaagatc ttgaaaccct ccgtctattc 360
gcaagagtga ttcctgagta ctgcaaatct ttggatgaaa atgaaattgc agagaatgca 420
ttttcactta tatttgcttt tgatgaaata gtggcattag gttataggga aagtgtcaat 480
ctgtctcaaa ttcgcacatt tgtggaaatg gactcgcacg aagaaaaagt ttatcaggcc 540
gtgagacaga ctcaagagcg cgaggccaag aatatgatga gagaaaaggc aaaagaactt 600
cagagacaga agatcgaagc ggccaaaaaa ggagggaaga cctcgtttgg tagtagcggt 660
ggctttggca gctcgacagg ttatactcct acgccatctg ttggtgatgt agctaaccag 720
acaaatgatg ttaaaacttc ttcatacaca ccagcccctg cgcaaaaacc tcggggtatg 780
aaattaggtg gaaaaggtag agatgtagaa tcattcgtag atcagc 826
<210>399
<211>1057
<212>DNA
<213>Diabrotica virgifera
<400>399
aatagaagca actgcttaaa aatcacacat attccttcgg tgttttagtg tttgttctta 60
aacaatatta ataaaaagtt ttagtttttt tcaatcatgt cagcagggga tgcactagcc 120
cccggtgcgg gggcggcggg tagcggcggc gacgatggca ttgtgggcgg tccgcgaacg 180
ccacaacaaa tcgcggccca acgacggctt caacaaacac aggcgcaagt cgacgaagtc 240
gtggatatca tgaaaacgaa tgtagaaaaa gtattggaaa gagatcagaa actatcagaa 300
ttagatgata gagcagatgc tttacaacaa ggtgcttcac aatttgaaca gcaagcggga 360
aaactaaaga gaaaattttg gttacagaat ttaaagatga tgataataat gggtgttatt 420
ggtcttgtaa tcttaataat catagtcatg aacttcatgt aactcatggg ccaaaaattc 480
gttcgaataa ttggcatata cagaaaacct acaattattg aatacaacac accaatacaa 540
aaaatcaata ttaaagtaat ttaatctata ggttggattg aaatagacga ttaggcaagt 600
tggttgaaaa aaatataatc agttgttaaa ggttcaataa atggacactg gtgtttcacc 660
aagtaattgt aattcaataa taataagcct ctggaaacac cattatttta ttatcacggt 720
aaaatacgag tgtctagctg tcaaaaatgt taaaattgtg tatttaacga aaaaaattaa 780
tataattagg tgaacagaac gaaaattttg tttttttaat attattgtag taagcgaaca 840
ctttgttatt ttttttaagg tttaattaaa agaaaaaaat aaagttttaa ctttttttaa 900
ttttataaga caattaaaga agatttaatt taattggttg gttaaaaaaa agtattcttt 960
ttacaatcct ggaaaaaatc tttgtaagtt tcgataaaaa aggcttgttc aaatccaccg 1020
ccctcccccc caacccgaat atttggaaaa ttttttt 1057
<210>400
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>400
caatcatgtc agcaggggat gca 23
<210>401
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>401
ccaacttgcc taatcgtcta tttcaatcc 29
<210>402
<211>511
<212>DNA
<213>Diabrotica virgifera
<400>402
caatcatgtc agcaggggat gcactagccc ccggtgcggg ggcggcgggt agcggcggcg 60
acgatggcat tgtgggcggt ccgcgaacgc cacaacaaat cgcggcccaa cgacggcttc 120
aacaaacaca ggcgcaagtc gacgaagtcg tggatatcat gaaaacgaat gtagaaaaag 180
tattggaaag agatcagaaa ctatcagaat tagatgatag agcagatgct ttacaacaag 240
gtgcttcaca atttgaacag caagcgggaa aactaaagag aaaattttgg ttacagaatt 300
taaagatgat gataataatg ggtgttattg gtcttgtaat cttaataatc atagtcatga 360
acttcatgta actcatgggc caaaaattcg ttcgaataat tggcatatac agaaaatcta 420
caattattga atacaacaca ccaatacaaa aaatcaatat taaagtaatt taatctatag 480
gttggattga aataacgatt aggcaagttg g 511
<210>403
<211>882
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(818)
<223〉n=a, c, g or t/u
<400>403
gttcataaca gttaatcatt tattgtttga cttaacaaaa agtagaccta gagtgaccac 60
cattaaatgt aatggtcagt taacaaatgt agtgttcaca aattatgaaa aaaacctatt 120
actccttatg ttgccagaca acagagtctc aaaacaagaa atattgttgt taaataatga 180
aataattaga ttattaaaat tctgctatga aactattgac aaatgcttca taactgaaaa 240
atacctccca caagtagacc acttcttttc gaaatttttt gcaagaactc ttagtagtgg 300
tttgtggagc acagctcaac aatctctggc tttggaaaac ctagaatcaa aagcaaaaga 360
agtcagcccc tgtcagtttg aggacttgat gcctgttgca cccactttgt gtctgcctga 420
cgaggctcag cttcagatag atgatgcctt atcagaattg gaggcaagtg attatagaga 480
ctggaatgaa gacccattgg actgtcaaag actgttcaca gttctgggca gtgccctctt 540
tcattcagga tacctgttgg cttcacattt tattcacgaa gatttgatag atgtcttttg 600
tttctgtaaa caacaaggat tgtttcattt atcaaggaca gaacctataa aatcacttgt 660
tctttggaag gaggtatttc catcatcttg caacaaattg gaaaatacaa aaattgttat 720
tcctgaagga agaaggtatt tgctaatagt ggaaagtgga aaagatctgt tagcggtaat 780
aatggaagct gggggttgta cagaaccatc tgaagaanac atgggtcctg atgcattcta 840
cgtagaagaa gcgcaagcta ctttagccca catccaagaa tt 882
<210>404
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>404
cctattactc cttatgttgc cagacaacag ag 32
<210>405
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>405
cttggatgtg ggctaaagta gcttgc 26
<210>406
<211>763
<212>DNA
<213>Diabrotica virgifera
<400>406
cctattactc cttatgttgc cagacaacag agtctcaaaa caagaaatat tgttgttaaa 60
taatgaaata attagattat taaaattctg ctatgaaact attgacaaat gcttcataac 120
tgaaaaatac ctcccacaag tagaccactt cttttcgaaa ttttttgcaa gaactcttag 180
tagtggtttg tggagcacag ctcaacaatc tctggctttg gaaaacctag aatcaaaagc 240
aaaagaagtc agcccctgtc agtttgagga cttgatgcct gttgcaccca ctttgtgtct 300
gcctgacgag gctcagcttc agatagatga tgccttatca gaattggagg caagtgatta 360
tagagactgg aatgaagacc cattggactg tcaaagactg ttcacagttc tgggcagtgc 420
cctctttcat tcaggatacc tgttggcttc acattttatt cacgaagatt tgatagatgt 480
cttttgtttc tgtaaacaac aaggattgtt tcatttatca aggacagaac ctataaaatc 540
acttgttctt tggaaggagg tatttccatc atcttgcaac aaattggaaa atacaaaaat 600
tgttattcct gaaggaagaa ggtatttgct aatagtggaa agtggaaaag atctgttagc 660
ggtaataatg gaagctgggg gttgtacaga accatctgaa gaagacatgg gtcctgatgc 720
attctacgta gaagaagcgc aagctattta gcccacatcc aag 763
<210>407
<211>3045
<212>DNA
<213>Diabrotica virgifera
<400>407
ggttaagtac ttatcggacc gcctgcctac tagtttctgt tgtggttgat agtttcactt 60
taatttcttt atctctgcgg cgtaagatgc gcccaaaaca ttaagaattt aagtgttgct 120
ttaatgtttg agtttctcgg ttaaatattc acaatttttt ttctcttttc aacaaaatta 180
aatctgaaag tacacaatga tcactgccaa aaaatataga ataactaaga agcaaatttc 240
gcgatatgag accgttcctg taagaaaaat gctagatttc gtatatcttg gtctatgaat 300
aacattaaca taagtattta ataatagata tttcataaaa ataaacatcc cctgctagat 360
ttagagactt ctcgcgaaat tgcgaaagag aactaaaacc gaatcaaatg caacactggc 420
ggttaaattt atactcttaa cgaagttaaa gaacaatcag caactataat ttataatcta 480
atgcttactc taatctatat aattttgaat atgattgtta agttgttgat tttcattgtt 540
ggttgctgtt ttcgccgttg acttgatttg gccgagcttt cgacgcatta tgtggagtca 600
tcagtacttt cagtacttca atttaaaaat ttttatcttt tgttcttctt atttttcatc 660
taaatacaaa tatatggtaa aagtaagtta tatagatata aagcggtatt gtttgagtaa 720
aaacggcaac tgtaggtaaa aatctgttaa tgattttgaa attgtaattg cattagccgc 780
cagatgtcgc catcggtgac agttctcccg actttcgacg aaaggtagga gcgtatcgag 840
cgccgtcaaa agttgaggtt atgtttaaaa tactaacctt agttgttaag ttagttgcga 900
accgttgcaa ctctcttccc tcactgtttg ctgcattaaa atagataaaa tggcctggcg 960
acgtacctgg actcgcgaat aaaggttcac cgacattgaa actgaataaa aagagagaaa 1020
actttgctgg tttctttttt ctacgatatt aatcgatgtc ttccgaaacg gaggcattgc 1080
ggcctattac cggcactaaa taagtagaga tgttatgatg tttataagtt tttatgtttt 1140
ttaatttttt tgctatgtat gttgtcgctc cgagctataa tacggttagg tacgtactgt 1200
aagcctattt tgggcaacag cctgtggaca taccaaacaa aagattgctc atgtactata 1260
tctctatcac tgatatgtat ttaattcgaa tttatcgtga gtaatctcta aagaacaata 1320
ctacgacaat aaacgatgga gtgattctat taaacaaaac aatactttca ggatgatcca 1380
cgggctggcc tacatatcgg gacatacact ttagatggca aaaattagaa taaatgggcg 1440
gggggtaaga aattctgtga tattaaaaaa tgatttcatg tctacattga aagtgatacg 1500
aaggaaacgt tagtaaagac gacgaaatcg actaatgctt ttggaagtat actgcgggac 1560
actcacaatg cggactagat ttaacttcga aacacgtcgc attccgtcaa gtcacatgat 1620
ctactttgtc cgtccccgat tttgaaataa cacgaaacaa cagtgaccga ttttcattag 1680
tgtgtttggc gacgtgaccc tctagtgatt gaaatataaa ctacgttgtg aaaagtgaca 1740
atgacagtta catcacttgt caaaagtgac tgacaatgga catttatgtc acttgtcaga 1800
agtaattgac aattcaacaa aattcaggcg aaagtttaca gtaatattac tttatagtcc 1860
aaataattaa aatatttttg cgtttgcttg atttgagtct gctcggtatg gtaaacaaag 1920
gcattagaag ctgttacaac aataatgggc aacatttttc ttttattata actgtctata 1980
aaaatgttta ttatttactt gttgtggaac tgtagtttcc tggaatcagt cggagtatga 2040
tattatattt tgaaaggttg gcaacgttat ggaaacgtat ccaacatcga tgttgccaaa 2100
tttccaatgt gatctgggat tgccgcgcaa tctgcacatt cttgtcgagt ttttgtacta 2160
aggggaaacg aaaaatggaa aacgaaaaaa acgatctaaa gtgtctggac cgtatctcca 2220
tatatgcata cttgtcgcat atcattgtgt tatcaatata ttttatattt atattttttg 2280
aacttttata tatttttatt tgtgtcataa cttctctgcc cccttttttc gaaaaaaaac 2340
aggcagtgtg atcgtgcctt ccttacaatt tcatttttta tacgatcgta ctaaaattgg 2400
tgctactata gtatgcggtc tacctgtgca tgtgtataga gcctacaaac agttttctgc 2460
ctttcattat tgtatacaaa cccttctgag aagagattat ggtgttgttc tgtagaccgc 2520
aagctatagc agaaacgcga cggtagaccg cataccatag tggtacccta aaattatctc 2580
gcccgtacca cctcgatgcg gaaaaggaat ctcggttgtc ttggcctctc gtccgttcct 2640
gtgtccagat tatattttca tacattggga aagcgggtct aggatggctc ctcggggtac 2700
acagattgtt aacggaagtt tttggaacgg aggcgaggcg aacggtacta ccgcagcttc 2760
ttttttcctt tgttactgga tcatctgtcc tgagaggtaa cagaatttgt attttataat 2820
tttttttatt taattatatt ttaggtatgt taaaactgaa cgtatatgat gaaaataatg 2880
actgattgtg tattgttgaa tccgattcgg cagtacttaa tacatttgtt tgtaaaattt 2940
tgagttttgc tgttaatcat tgtatatatg ataaatatat tattttacag agtccttgag 3000
gtcaattttg ttagcccagg actaacctga gggagagaat atatt 3045
<210>408
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>408
tgagtctgct cggtatggta aacaaagg 28
<210>409
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>409
gctaacaaaa ttgacctcaa ggactctgt 29
<210>410
<211>1125
<212>DNA
<213>Diabrotica virgifera
<400>410
tgagtctgct cggtatggta aacaaaggca ttagaagctg ttacaacaat aatgggcaac 60
atttttcttt tattataact gtctataaaa atgtttatta tttacttgtt gtggaactgt 120
agtttcctgg aatcagtcgg agtatgatat tatattttga aaggttggca acgttatgga 180
aacgtatcca acatcgatgt tgccaaattt ccaatgtgat ctgggattgc cgcgcaatct 240
gcacattctt gtcgagtttt tgtactaagg ggaaacgaaa aatgaaaacg aaaaaaacga 300
tctaaagtgt ctggaccgtg tctccatata tgcatacttg tcgcatatca ttgtgttatc 360
aatatatttt atatttatat tttttgaact tttatatatt tttatttgtg tcataacttc 420
tctgcccctt tttttcgaaa aaaaaacaag gcagtgtgat cgtgccttcc ttacaaattt 480
cattttttta tacgatcgta ctaaaattgg tgctactata gtatgcggtc tacctgtgca 540
tgtgtataga gcctacaaac agttttctgc ctttcattat tgtatacaaa cccttctgag 600
aagagattat ggtgttgttc tgtagaccgc aagctatagc agaaacgcga cggtagaccg 660
cataccatag tggtacccta aaattatctc gcccgtacca cctcgatgcg gaaaaggaat 720
ctcggttgtc ttggcctctc gtccgttcct gtgtccagat tatattttca tacattggga 780
aagcgggtct aggatggctc ctcggggtac acagattgtt aacggaagtt tttggaacgg 840
aggcgaggcg aacggtacta ccgcaggttc ttttttcctt tgttactgga tcatctgtcc 900
tgagaggtaa cagaatttgt attttataat tttttttatt taattatatt ttaggtatgt 960
taaaactgaa cgtatatgat gaaaataatg actgattgtg tattgttgaa tccgattcgg 1020
cagtacttaa tacatttgtt tgtaaaattt tgagttttgc tgttaatcat tgtatatatg 1080
ataaatatat tattttacag agtccttgag gtcaattttg ttagc 1125
<210>411
<211>1844
<212>DNA
<213>Diabrotica virgifera
<400>411
gggcggacgc gtgggtttgt ctgtgcgaac ttctaacctc atttttacag ccttaacata 60
cgtttgacgt ctgttaatgc tttttaacta atagagattg tctaaaatgg cagtaatcgt 120
ttacttttgt ttcttccggg atgctcaaaa accatcaaca cagtttgtat aggaactaag 180
atttttgggg agactgaagg agacgttgac aggggttctc atacctgcct agagaagata 240
atacaataat acattttata tatttattaa taatatagta ataatgttgc gcgtgcgttg 300
tctactaagc attgtggatt tggtcgatct tccgatttag tttaagaaat aaaaatatat 360
gggcaacttt tttttggttt tgtttcctgg ccttggtgtg aaaccttagc cacgtaatta 420
ctataactat ctcgggggag taatgtgtag tgtgtgttga gtaaatgggt tgttacttag 480
taaattcggc ttcgtaaaga caaagtttct acccagactg gattcgaact tattgggttc 540
aaaggtaggc tctcttacca ctgagccacg gaagcttgta cccgtctttg ttaagattag 600
tttatagttg gcgaagaaca tttcagtaag tttagctcgc gtatttcgcc tctaatcttg 660
gaaaaaatat atggacgtgt ttcaaatttc aaacaaattg tttattttaa gaaaaacgtt 720
acgaaaacat atttagttca aaagtactaa ttcctcaata tatttcatta tttgaactaa 780
catttttttt atcctgatta ttgatttaga gatgtgtaca aatcaacaat gcattagtga 840
atccttcact ctctcttagt gtacataatt tgaaacaatt aattttacat ccaattatag 900
gtccatgaca tgtgacacat tcatgtcata tatcattaag tagcaattgc tcaattctat 960
gctttcgaaa ttataaagta aatcctttct gcaccagtaa aacagaattg aacaattgtg 1020
tcagcagaaa catatatttt tggatagtaa tgggagtcga atgagtgtcc ttagatagga 1080
ttttgttatg attaaagtaa actttattgt aacttactga gcatggggat acgtgagcgt 1140
ggggatatac tcggacattt actcaaataa tccttatttt tgaagcttgg ttaggcaaat 1200
acagagacaa cttaaaaaca ggttaatttc aaattttctt tgccacactc ggtgaaatag 1260
tcggacaagt ttgctagtaa aatactaaga caacttaaaa acacagatat gttaaaaaaa 1320
atcataatgc agatgtgggg ctaaactaag acatgtggga atgtccgggt atttcaccac 1380
aactatgatt agaaaaggca aatattaatc ggataataaa aaggtatttt cagatatctt 1440
ccttttaacc caggtatttc caacaaatca attagtgcaa tattaggata ttgctcataa 1500
acaccacaaa gcagccgatt gaacaaatct tagtatctct ccagatagct tatgaaattt 1560
tacatcagat agagcagata actcaaaagt caaatatttg aagatatcct agtattgttc 1620
tagtgcgacg atatatatac caaaaaatta taatttaaaa ataaaaatcg acctgtttcg 1680
ggatttttct ccagagtcgc ccattctcga gaaaataaat gtattccaac tcaaacgttc 1740
tcactgtata aaaaatgaga ctaaaagaca taaaaaatag acagatctga tgttttcaaa 1800
atctctaata tttcgtacag ttgttcacat aaaacatctt tttg 1844
<210>412
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>412
ggagactgaa ggagacgttg acaggg 26
<210>413
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>413
ctcacgtatc cccatgctca gtaagttac 29
<210>414
<211>948
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(38)
<223〉n=a, c, g or t/u
<400>414
ggagactgaa ggagacgttg acagggtttc tcatactngc ttagagaaga taatacaata 60
atacttttta tatatttatt aataatgtag taataatgtt gcgcgtgcgt tgtctactaa 120
gcattgtgga tttggtcgat cttccgattt agtttaagaa ataaaaatat atgggcaact 180
ttttttggtt ttgtttcctg gccttggtgt gaaaccttag ccacgtaatt actataacta 240
tctcggggga gtaatgtgta gtgtgtgttg agtaaatggg ttgttactta gtaaattcgg 300
cttcgtaaag acaaagtttc tacccagact ggattcgaac ttattgggtt caaaggtagg 360
ctctcttacc actgagccac ggaagcttgt acccgtcttt gttaagatta gtttatagtt 420
ggcgaagaac atttcagtaa gtttagctcg cgtatttcgc ctttaatctt ggaaaaaata 480
tatggacgtg tttcaaattt caaacaaatt gtttatttta agaaaaacgt tacgaaaaca 540
tatttagttc aaaagtacta attcctcaat atatttcatt atttgaacta acattttttt 600
tatcctgatt attgatttag agatgtgtac aaatcaacaa tgcattagtg aatccttcac 660
tctctcttag tgtacataat ttgaaacaat taattttaca tccaattata ggtccatgac 720
atgtgacaca ttcatgtcat atatcattaa gtagcaattg ctcaatttta tgctttggaa 780
attataaagt aaatcctttc tgcaccagta aaacagaatt gaacaattgt gtcagcagaa 840
acatatattt ttggatagta atgggagtcg aatgagtgtc cttagatagg attttgttat 900
gattaaagta aactttattg taacttactg agcatgggga tacgtgag 948
<210>415
<211>1700
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(49)
<223〉n=a, c, g or t/u
<400>415
attaagtatt aattactgat atggtatgtc cgctaaatga tccagcatnt gatgctggaa 60
agataaaata atctagtaat tacaataatt gttttacaaa catttaaatg cataaataaa 120
agtaatttag aatggatatt attgctacaa ttttattgtg tcaataatag ggtacaatac 180
gtttacttta gcggggaagg ttagtttaga gataattcaa aaatttggta gtaagatatt 240
ggatttctta taattagatc ttttaaagaa taaattatat acagacgtgg atttaattga 300
gtattatggt ttaagtagct ttatatatac aatatccata atgaatgatc attttatgat 360
tgtccagcta ttcaagcatt ttttttatca atataacaac ttgaaggtgt tataatattg 420
gaatctatcg ttttcgttct catttggagt acccatctca aaatatgatc tctctagtta 480
tttaattata ttaaataaag gtgagaaaac gtgaaccttt acaaaatggg gaggggtggg 540
aagtagaaaa tgtatgaata tgttcttcct ctgtactagt cggtagagga cttttgaaat 600
tactctttta tatatatgaa tcgtcgtcag tttttctcta tacgttagag tttccgttcc 660
accaattctt cggacgggta gatagacgaa tgcattccac aaaactaaag gattgatttt 720
tctattttga tttcgatcca attgaatagt taagtcctat taattagata ttgaccttct 780
tttgtctgat ttgcttaaag taatttatta ttttctttct ttcgcttgac actgtacatc 840
tattcatctt cttaatatcc gatattcttt gaaaacacat cttaggtcgg cagtacacgg 900
acagcttgaa ccagcgaccg cacggtgaac tataatccta tattcgctga tatacacatg 960
acagctcgag cacagtcacg acctcttcaa actgtcaaca gcacgatgaa aatccatcgt 1020
gctgttgaca gctcgagagc ggttgcaagg caacaagtga caactcaagt agtcaacgac 1080
tgctccagat atcaacgacg accgctcgag cagtccgtgt atgtcgctca gtggtaaact 1140
gcttcaacag tccttgtacg gccgccctta gagctatatt atattcttaa aatctacagt 1200
taaagctgat tttgattccg ttttataatt cctccaaatc aagagggtag gtcaaagcag 1260
agtgagttgt gttgattttt ccttatgtgt gtgacgattt cacctggagg tatttccctt 1320
tgtaggaaga tctttgaaga tctcttaatg gaaaattatt ttctgtaata tattattcat 1380
actccattta tgtaataaca acattatagt acactaaagt atctaaaatg tttttatatt 1440
aacaggtatg tgaaaaagta acaaaatgag aattattaaa aagactagta gtacttgaag 1500
ctgatgctta caaaggccct caatatcaac ttacccattt tagaaattgg aattatttga 1560
gtaatactaa aactttgagg agttacttag gttctggaga ctttgattga agatcctctt 1620
gagattttaa tactacaaag atatttaaca ctgcgttaaa atttttgcta ttaaatattc 1680
agtatactct aatttcgaga 1700
<210>416
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>416
gcagtacacg gacagcttga accag 25
<210>417
<211>40
<212>DNA
<213>Diabrotica virgifera
<400>417
gcagtgttaa atatctttgt agtattaaaa tctcaagagg 40
<210>418
<211>764
<212>DNA
<213>Diabrotica virgifera
<400>418
cagtacacgg acagcttgaa ccagcgaccg cacggtgaac tataatccta tattcgctga 60
tatacacatg acagctcgag cacagtcacg acctcttcaa actgtcaaca gcacgatgaa 120
aatccatcgt gctgttgaca gctcgagagc ggttgcaagg caacaagtga caactcaagt 180
agtcaacgac tgctccagat atcaacgacg accgctcgag cagtccgtgt atgtcgctca 240
gtggtaaact gcttcaacag tccttgtacg gccgccctta gagctatatt atattcttaa 300
aatctacagt taaagctgat tttgattccg ttttataatt cctccaaatc aagagggtag 360
gtcaaagcag agtgagttgt gttgattttt ccttatgtgt gtgacgattt cacctggagg 420
tatttccctt tgtaggaaga tctttgaaga tctcttaatg gaaaattatt ttctgtaata 480
tattattcat actccattta tgtaataaca acattatagt acactaaagt atctaaaatg 540
tttttatatt aacaggtatg tgaaaaagta acaaaatgag aattattaaa aagactagta 600
gtacttgaag ctgatgctta caaaggccct caatatcaac ttacccattt tagaaattgg 660
aattatttga gtaatactaa aactttgagg agttacttag gttctggaga ctttgattga 720
agatcctctt gagattttaa tactacaaag atatttaaca ctgc 764
<210>419
<211>1638
<212>DNA
<213>Diabrotica virgifera
<400>419
gaatatcaac aaaatgccaa gggaaaaaac aaaaaatgat taataaaact aaaatctttt 60
ttgtttttcc cttttctcaa aactagaaca tacaacagta taactctggg ctaacaaaat 120
gccaaggtac agaagtattc aacagcatga ggtcactttt gaatgtggtt tatctaatgt 180
tgccgcaaca cacttcactg tgtgttattt gttatgcacc ttattcagcc acataggact 240
aagtgtggag ggttcattca tcaaaattcg ctttatgtgc acacatagca cataagcata 300
catggcaaat atgcctatcc atccagttgt cagtttttac acacttcaaa agacaaatat 360
ttgggtgcat acagagtagc cacgtaacaa atagcacata gcgaagtgtt gtaccagcat 420
aatgtataag cttatacaaa actaggttta cctgtatctg ttacagtaac gctgtaactt 480
gcatacacat cagtatatcg agttgtctac aagtacattg tatttttttt tataaagacc 540
tgtcataata ttcatttaat ctgtctggca gatgtttgta tgtttactga gtcaatgatt 600
tggtgatatt ttcaagtaaa tttacgggaa aattaactat ttaataaaaa cagatcacat 660
agataactgt gtggttaggg gacacaagca gacaagtcaa cttttcagtt ttatagttaa 720
aattaatttg acgggtccac tgaataatgt aagtgcctaa tcacttgttt ttaagaaata 780
gaaaaaaagt gttaaaatta taacaatggc aaacttatac atttaaaggt tgtactcacc 840
cttaaaatgt ataaactcac cattatcaca attttaaaac tttttcttca acttctcaaa 900
aacgaacaat gggatactta caatgttatt cggcggaccc attcaattaa agctaaaatc 960
gtgagtgtga aaaagatcac tatttcatat atgaaactag acatttaaca ttttgaactg 1020
tcatctattt cagcagtaga ttattgtttt aggtgttttt aaccctgcag cggacaggcg 1080
aaataaaatt acattgtatt tccatatggc tgctgtccac tggaggtttc ataaataaaa 1140
atgtttctca aaaattgagt tgtctgccac cacacaatta tgagttatat aaccactgca 1200
ttatgtttta cctgtaatta acatgtctaa tgttgataat tttaacaaaa cagcataatc 1260
aatttgtatt tttaaatgta ttattaaata ttttgtattt tgatactaaa tattttgtat 1320
tttgataata aattagatat taaagataaa gatttatata ccctattcca cgaacatacg 1380
actgttgtgg attatctcga caacgaatat tttactgtgt aaattataaa gaatgaaagt 1440
aaattgcaaa atacattgtt gtttattgga acaattagta gagccattta ctttcgcact 1500
tcttatgttg cacactaaaa tattcgttgt ggcgataatc caagatagtc gtatattcgt 1560
ggaatagccc atactaaaat tataaaaaaa atgcactaga aataaacaac ccaagacacg 1620
ttgaatgtta caaggagc 1638
<210>420
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>420
ggtacagaag tat tcaacag catgaggtca c 31
<210>421
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>421
gaaacctcca gtggacagca gcc 23
<210>422
<211>1005
<212>DNA
<213>Diabrotica virgifera
<400>422
ggtacagaag tattcaacag catgaggtca cttttgaatg tggtttatct aatgttgccg 60
caacacactt cactgtgtgt tatttgttat gcaccttatt cagccacata ggactaagtg 120
tggagggttc attcatcaaa attcgcttta tgtgcacaca tagcacataa gcatacatgg 180
caaatatgcc tatccatcca gttgtcagtt tttacacact tcaaaagaca aatatttggg 240
tgcatacaga gtagccacgt aacaaatagc acatagcgaa gtgttgtacc agcataatgt 300
ataagcttat acaaaactag gtttacctgt atctgttaca gtaacgctgt aacttgcata 360
cacatcagta tatcgagttg tctacaagta cattgtattt ttttttataa agacctgtca 420
taatattcat ttaatctgtc tggcagatgt ttgtatgttt actgagtcaa tgatttggtg 480
atattttcaa gtaaatttac gggaaaatta actatttaat aaaaacagat cacatagata 540
actgtgtggt taggggacac aagcagacaa gtcaactttt cagttttata gttaaaatta 600
atttgacggg tccactgaat aatgtaagtg cctaatcact tgtttttaag aaatagaaaa 660
aaagtgttaa aattataaca atggcaaact tatacattta aaggttgtac tcacccttaa 720
aatgtataaa ctcaccatta tcacaatttt aaaacttttt cttcaacttc tcaaaaacga 780
acaatgggat acttacaatg ttattcggcg gacccattca attaaagcta aaatcgtgag 840
tgtgaaaaag atcactattt catatatgaa actagacatt taacattttg aactgtcatc 900
tatttcagca gtagattatt gttttaggtg tttttaaccc tgcagcggac aggcgaaata 960
aaattacatt gtatttccat atggctgctg tccactggag gtttc 1005
<210>423
<211>1602
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(1543)
<223〉n=a, c, g or t/u
<400>423
ctaatttagg ggcttagatt agtatttcct tatacaataa gttaaaaaat atttattttc 60
ttttagttta attgtttcgt ctgtagcact ataagattat taaataattt gtgttaatta 120
ctacttaaat tacaaagttt attgttactc tagactctag acctaacaaa ttatatgtta 180
tcttaaaaaa atagtgtgtt cactgcatga tactccacaa ataagaatag ttcagacagt 240
aactttcttt taactatcga cacataagat aacatttact ccttggcaag ttcattggtg 300
ccctaatcaa tcacaatagg gaacttgcac ttttttgttt tattatataa tattgtttag 360
tttcctttaa aaataagatt tccaaaattt cacgcctcaa aatctcataa taacttagaa 420
gtacaaattt aaaatcttct atgtatttaa atcatttcaa acgatctaaa aatcgcgcga 480
attcttgtga cgtcatatga tcatattttg tatgtcattt ctaacgtctc atttaaatta 540
catacaattt tgtttacttt ggagttcaaa aacacagttt ttgaagagat agtaatgaat 600
tgtgtgtatt tttattatgg aaaataaaag taaatactat gaaagtgttg tttaataaca 660
ttctgttaaa ttaaaaccat tgaaactccc aataaaatat ttattagatt accagcggat 720
aagaaacgga gattaataaa gtggttacaa aggacattaa agacatgtta gttcattctc 780
aaggtcttca tggatgcgaa gctaatgcta atataggtgt ctgttgtttt aatgtaatat 840
gtgttgtctg cttaatagtc tttttttata aatcaagtat atatagatgg aaaagataaa 900
aataatatat aatatcaatt gtgtgaaaaa ttttcttcct tttgaaaata tgtggcacct 960
ggacaacata aatatattta caatgggtaa agttatcaga ctgcccttta ggaaaaccct 1020
cttcggtcat tttaaaaaat tgtcttaaca aaaacactca aatattatga aatatatagt 1080
tcacagcaac tatctaaaga tttataaact gaaatagacc ataaaatgat tacaataatc 1140
ataaacaata ttaaacaaaa acttaatgaa ttaacgacgc tgaatttaaa cattataata 1200
atacgacgtc gcgaccaatc aggtcgcctt ttgggctggc cgctataatg tgaattgtct 1260
ctcgatatta atcatcttta ggggccaaat gaaagaaaaa aacaactttt ttcctttggt 1320
atatatttta aattatggtc tgttgggatt tatagcattt tgtcgaattt aaaattctat 1380
gtaagttccc tattcattta ggattgatga gagattgtaa agatcaatta tgtcaacaaa 1440
gctaaaatca ttgtgaaaaa gtggttattt acatagctac ataaatagct ttttcttaca 1500
tttgtcaaag aatagagttg aaagggacac tacatagtct tanaactaat tatttcaaga 1560
agtattattc attgtcttga gtatttcaaa ctgaaacatc gt 1602
<210>424
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>424
ctccttggca agttcattgg tgc 23
<210>425
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>425
ctccgtttct tatccgctgg taatct 26
<210>426
<211>453
<212>DNA
<213>Diabrotica virgifera
<400>426
ctccttggca agttcattgg tgccctaatc aatcacaata gggaacttgc acttttttgt 60
tttattatat aatattgttt agtttccttt aaaaataaga tttccaaaat ttcacgcctc 120
aaaatctcat aataacttag aagtacaaat ttaaaatctt ctatgtattt aaatcatttc 180
aaacgatcta aaaatcgcgc gaattcttgt gacgtcatat gatcatattt tgtatgtcat 240
ttctaacgtc tcatttaaat tacatacaat tttgtttact ttggagttca aaaacacagt 300
ttttgaagag atagtaatga attgtgtgta tttttattat ggaaaataaa agtaaatact 360
atgaaagtgt tgtttaataa cattctgtta aattaaaacc attgaaactc ccaataaaat 420
atttattaga ttaccagcgg ataagaaacg gag 453
<210>427
<211>1529
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(874)
<223〉n=a, c, g or t/u
<400>427
gagatatttg tagtatagtt ttgctttgaa gattcattat aggtttttaa ttatgattaa 60
tgaaatgatg gaactatcga acaattagaa tctgtatatc tttaggcaaa tctgtaaata 120
atcattgtag ttattcttgg aactagtttg caactaagaa atataattta agactttttg 180
aacacagtca aaagaccatg actatcacag atgtggatta gtaccacttt aaatttgtta 240
ataaaacata gaatttatag aatagtttcc ccgttttata ccgcatatgc gactttagga 300
ttatagcagg ctgtcatctc tagggctacg gtatacaaga aagataacag ggccagtgct 360
acgcttcaac cgcctattat tacccctggt tttagccaag gaactcattt tattcaggct 420
gagtcgacct ggggcctatt taaaaatgtc tagttgttct tgccggcgct gggtctcgaa 480
cccaggtcta ccagcaagcg agtcagacat cctaccgctg aactacgccg gcccatacgt 540
agagtttata attatcttat atataataaa ggaatttgat taaaaaaggt aaaaatacat 600
tgtattgggt tgcttaggcc taaatacata tctcttccta ttagtaagtt acaaaatggt 660
gagattcgat catttttgtg ggatatgtag ttgatgaatt aagtagtaag tagtagttga 720
atacacgtta cattttctca acattgatta atacatttat ttttttccaa aataagaaaa 780
atttagctac taaaaaaata tatgctaaat attgtttatc atcagctaaa agttaggaga 840
tctgttaaat cctataaaat atgaaaacaa tganaatgtg ttgtttcggt aagtacatag 900
tttgcagaca actggacgat acaagggatc taataacttt tagcaattga taaattgaac 960
gaaaaaatca caatgtttaa tcaaaagctc aaacacaaga acacaaagtt tttatgatgt 1020
taaataaatg aagactttct accgttcaca cgaaaggcgc ttatcctgat ctggttacat 1080
tttcttaaga taaaaccgtg ggtacataat atacacaatc aaacttatat ggaatcacca 1140
tgtatttcaa accaatattt atttcttttg aaaaaaactt gttaccaggc gcggatacag 1200
gggagggtca aggggtctat agacccccct attgtattta gtctataaga atttttttat 1260
tatttattat ttttttctgt caactctaaa ctttaagcca ccagtagaac actaaaatta 1320
aacgacaacc acttccaaag aattattgaa agaagcaata aaatctaata aaaccgagcc 1380
ttttctgaaa aataaattga agccgcattt gtttgggtac cgatggagcc gtaaacaact 1440
gaaatatttt tctcaattca aagaataacg gaaatgatat cttaaaatgc aaatactttt 1500
cgtgaggtaa ggtttatacc cggtgtaat 1529
<210>428
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>428
gtcaaaagac catgactatc acagatgtgg 30
<210>429
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>429
cgtccagttg tctgcaaact atgtacttac c 31
<210>430
<211>731
<212>DNA
<213>Diabrotica virgifera
<400>430
gtcaaaagac catgactatc acagatgtgg attagtacca cttcaaattt gttaataaaa 60
catagaattt atagaatagt ttccccgttt tataccgcat atgcgacttt aggattatag 120
caggctgtca tctctagggc tacggtatac aagaaagata acagggccag tgctacgctt 180
caaccgccta ttattacccc tggttttagc caaggaactc attttattca ggctgagtcg 240
acctggggcc tatttaaaaa tgtctagttg ttcttgccgg cgctgggtct cgaacccagg 300
tctaccagca agcgagtcag acatcctacc gctgaactac gccggcccat acgtagagtt 360
tataattatc ttatatataa taaaggaatt tgattaaaaa aggtaaaaat acattgtatt 420
gggttgctta ggcctaaata catatctctt cctattagta agttacaaaa tggtgagatt 480
cgatcatttt tgtgggatat gtagttgatg aattaagtag taagtagtag ttgaatacac 540
gttacatttt ctcaacattg attaatacat ttattttttt ccaaaataag aaaaatttag 600
ctactaaaaa aatatatgct aaatattgtt tatcatcagc taaaagttag gagatctgtt 660
aaatcctata aaatatgaaa acaatgaaat gtgttgtttc ggtaagtaca tagtttgcag 720
acaactggac g 731
<210>431
<211>1208
<212>DNA
<213>Diabrotica virgifera
<400>431
atattatttg ttctgtgaag cagctttgtt aggaaaaatc aaaatgtttt cagctacgtt 60
taaactgtta tttttgataa cagtaatatt ggtatccctt tcgccatcca gtgcagacaa 120
ttataacaaa tgtcctgaaa ccagccatat acgatcccta atttaccaga atacattgaa 180
ggggagagtt atacatgtac gcattccagg cacaggtttc tttgaagctc caatcacttg 240
tcttcaggtt accgatataa atgaaagttt cagtacacca gttgtagaag aaggtggata 300
tggaagggag tacgtagttt tacgtattga cccagttgaa tcaggagaac agttacaata 360
cgatgttcag atttatattg acgaagctgt tacagcctat cctcaataaa tgttcggtat 420
aaatgtttaa gaaattcgag tagccccttt aaagataagc agttgctggt attttaacag 480
cattactgat tgtaagttaa tcatttcaga ccttcacgta aactatgttg ttacaaaaac 540
gcatattagg acaataatcc aaattattag acaataaata ttaggcaaga gaaattaaac 600
gagtttctag ttttaagtac aaacaagtga agttcatcag caaaacagaa ttcagaatta 660
ttctacgtat tatattaaaa gcactatttg gttaaaagtt atcatttttg ggggtaaaag 720
aatctattaa tttgtcttga gtaaaggtag tatttgttta aatttgccga ccgatgatag 780
gtagattggg ccaagtacag tgggtgatca tattattaga gccacctaat atgttcagtg 840
ttttggagga atgtttacaa tgttttgtaa tttaatgttt acaatgttta gaatgtttac 900
attaaattac aaaaacgcat attaggacaa taatccaaat tattagacaa taaatattag 960
gcaagagaaa ttaaacgagt ttctagtttt aagtacaaac aagtgaagtt catcagcaaa 1020
acagaattca gaattattct acgtattata ttaaaagcac tatttggtta aaagttatca 1080
tttttggggg taaaagaatc tattaatttg tcttgagtaa aggtagtatt tgtttaaatt 1140
tgccgaccga tgataggtag attgggccaa gtacagtggg tgatcatatt attagagcca 1200
cctaatat 1208
<210>432
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>432
cctttcgcca tccagtgcag aca 23
<210>433
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>433
ctccaaaaca ctgaacatat taggtggctc 30
<210>434
<211>752
<212>DNA
<213>Diabrotica virgifera
<400>434
cctttcgcca tccagtgcag acaattataa caaatgtcct gaaaccagcc atatacgatc 60
cctaatttac cagaatacat tgaaggggag agttatacat gtacgcattc caggcacagg 120
tttctttgaa gctccaatca cttgtcttca ggttaccgat ataaatgaaa gtttcagtac 180
accagttgta gaagaaggtg gatatggaag ggagtacgta gttttacgta ttgacccagt 240
tgaatcagga gaacagttac aatacgatgt tcagatttat attgacgaag ctgttacagc 300
ctatcctcaa taaatgttcg gtataaatgt ttaagaaatt cgagtagccc ctttaaagat 360
aagcagttgc tggtatttta acagcattac tgattgtaag ctaatcattt cagaccttca 420
cgtaaactat gttgttacaa aaacgcatat taggacaata atccaaatta ttagacaata 480
aatattaggc aagagaaatt aaacgagttt ctagttttaa gtacaaacaa gtgaagttca 540
tcagcaaaac agaattcaga attattctac gtattatatt aaaagcacta tttggttaaa 600
agttatcatt tttgggggta aaagaatcta ttaatttgtc ttgagtaaag gtagtatttg 660
tttaaatttg ccgaccgatg ataggtagat tgggccaagt acagtgggtg atcatattat 720
tagagccacc taatatgttc agtgttttgg ag 752
<210>435
<211>1290
<212>DNA
<213>Diabrotica virgifera
<400>435
gttccagagg agtgcagaat gttttattag tgaagccttt aaacaggttt ttgtgtgaat 60
aaaaccggtg tatattattg tgaataaatg tgtcaaatat aggatatata cctgaaacag 120
attaactgca cttgtttaat aaaaggcact actacttact aacacaagat gtccgtattg 180
ggaatggtat cagccgtagc gggctttgtc aaagtccgct acttggttga taaagctcta 240
atcgacaata tggtgtttag agcccactat agagtcacgt cggccatatt gtttttatgc 300
tgtatcatcg ttactgcgaa taatctaatt ggtgacccca ttcagtgcat caacgacagg 360
ggtgttccag gtcatgtaat aaatacgttt tgctggataa cgcatacttt tacgttacca 420
catgaacaag gaaaacgcgt cgggacagaa gttgctcatc ctggtcttgg taacgaaaat 480
caggataaga gataccacag ctactaccaa tgggttccat tcgttttatt cttccagggc 540
gtcctctttt acatccctca ttggttgtgg aaaaattggg aacaaggaaa aattcgtatg 600
atcaccgaag gtatgagagg atcgatggtc ggagttgggg aaaaggcaga gagagaacat 660
agacagaata gactcgtaca atatcttatc gaaacgatgc acatgcacac ttcctatgca 720
ttcggatact ttatttgtga agctctaaac ttcgttaatg tgatggtaaa catattcatg 780
actgacaaat tcctcggtgg agcgttccta acctacggca ctgacgtagt ttccttttcg 840
aacatgaatc aagaaaatcg cacggatccc atggtagcca tctttccaag ggtaacaaaa 900
tgtacattcc acaaattcgg tccttcagga tcaattcaga agcatgacgc cctctgcgtg 960
ttagccttga acattctcaa cgagaagatt tacattttcc tatggttctg gtttattatt 1020
ttagctatac tgtccggttt ggctattgtg tattcggcag ctgttgtatt actacctagt 1080
acaagagaaa cgattttgaa gaggagattc agattcaagg tacccaatgc tgttgagact 1140
attgtcagaa aaacacaggt tggtgatttc cttttgattc acttactggg acaaaacaca 1200
aaccaattgg tatttggcga aattttggac gaattcgtaa gaagactgaa tttcggtagt 1260
aacagcaact taccgtctgc tcccagcacg 1290
<210>436
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>436
cacaagatgt ccgtattggg aatggtatc 29
<210>437
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>437
gtaagtgaat caaaaggaaa tcaccaacct g 31
<210>438
<211>1023
<212>DNA
<213>Diabrotica virgifera
<400>438
cacaagatgt ccgtattggg aatggtatca gccgtagcgg gctttgtcaa agtccgctac 60
ttggttgata aagctctaat cgacaatatg gtgtttagag cccactatag agtcacgtcg 120
gccatattgt ttttatgctg tatcatcgtt actgcgaata atctaattgg tgaccccatt 180
cagtgcatca acgacagggg tgttccaggt catgtaataa atacgttttg ctggataacg 240
catactttta cgttaccaca tgaacaagga aaacgcgtcg ggacagaagt tgctcatcct 300
ggtcttggta acgaaaatca ggataagaga taccacagct actaccaatg ggttccattc 360
gttttattct tccagggcgt cctcttttac atccctcatt ggttgtggaa aaattgggaa 420
caaggaaaaa ttcgtatgat caccgaaggt atgagaggat cgatggtcgg agttggggaa 480
aaggcagaga gagaacatag acagaataga ctcgtacaat atcttatcga aacgatgcac 540
atgcacactt cctatgcatt cggatacttt atttgtgaag ctctaaactt cgttaatgtg 600
attgtaaaca tattcatgac tgacaaattc ctcggtggag cgttcctaac ctacggcact 660
gacgtagttt ccttttcgaa catgaatcaa gaaaatcgca cggatcccat ggtagccatc 720
tttccaaggg taacaaaatg tacattccac aaattcggtc cttcaggatc aattcagaag 780
catgacgccc tctgcgtgtt agccttgaac attctcaacg agaagattta cattttccta 840
tggttctggt ttattatttt agctatactg tccggtttgg ctattgtgta ttcggcagct 900
gttgtattac tacctagtac aagagaaacg atttgaagag gagattcaga ttcaaggtac 960
ccaatgctgt tgagactatt gtcagaaaaa cacaggttgg tgatttcctt ttgattcact 1020
tac 1023
<210>439
<211>845
<212>DNA
<213>Diabrotica virgifera
<400>439
caaactcttt acaggttgag tatagcagtt taacagtatc ttcaacaagg tctcgagtta 60
catatgtttc gtgttaaagt gcagtgtaag tgaagttaca actttgcggt gcatcgccta 120
aaagtcatgg ctcttgtagc cagctcctgg cgagagacat ccttaggtaa cccggtgagc 180
ctgaactctt tgcccaacgg tttgaatcct ttacctcaga ctagtacttt aactccttta 240
cccaccaaca ttaatcctat taatcttgaa acatccgatc cttcgctgat caatcgacaa 300
acgccgtcac aaaactcaca aaatagtaat aacagtgtag ataagaacca gaacattgag 360
tgtgttgtgt gtggggacaa aagttctggt aaacactacg gacaattcac atgcgaagga 420
tgcaaatcat tttttaaaag gagtgttaga agaaatttaa cgtactcatg tcgagggagc 480
cgaaattgtc cgatagatca acatcataga aaccagtgcc aatattgtcg tttaaaaaaa 540
tgtatgaaaa tgggcatgcg gagagaagct gtgcagcgtg gcagagtacc accgtcgcag 600
ccttcgcttc caggtttacc aaatcagttc cttaactcaa cagactcgat gaatacatct 660
ctaagcaacc acacgtacct cagtagttac atatcactat tattaagagc agagccgtac 720
cctacgagtc gatatggtca atgtctgcaa agtaataaca ttatgggcat tgacaatata 780
tgcgagttag cagcgcggct gctattctca gcagtagaat gggcaaggaa tataccgttc 840
tttcc 845
<210>440
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>440
gctcctggcg agagacatcc ttagg 25
<210>441
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>441
gcagacattg accatatcga ctcgtagg 28
<210>442
<211>606
<212>DNA
<213>Diabrotica virgifera
<400>442
gctcctggcg agagacatcc ttaggtaacc cggtgagcct gaactctttg cccaacggtt 60
tgaatccttt acctcagact agtactttaa ctcctttacc caccaacatt aatcctatta 120
atcttgaaac atccgatcct tcgctgatca atcgacaaac gccgtcacaa aactcacaaa 180
atagtaataa cagtgtagat aagaaccaga acattgagtg tgttgtgtgt ggggacaaaa 240
gttctggtaa acactacgga caattcacat gcgaaggatg caaatcattt tttaaaagga 300
gtgttagaag aaatttaacg tactcatgtc gagggagccg aaattgtccg atagatcaac 360
atcatagaaa ccagtgccaa tattgtcgtt taaaaaaatg tatgaaaatg ggcatgcgga 420
gagaagctgt gcagcgtggc agagtaccac cgtcgcagcc ttcgcttcca ggtttaccaa 480
atcagttcct taactcaaca gactcgatga atacatctct aagcaaccat acgtacctca 540
gtagttacat atcactatta ttaagagcag agccgtaccc tacgagtcga tatggtcaat 600
gtctgc 606
<210>443
<211>932
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(650)..(836)
<223〉n=a, c, g or t/u
<400>443
aaagagtatg tggtgtttaa tgttatttcg agtgggatta tctatcttat ttttctttca 60
tacaacatta gctcttcctg atgaatgtag ttctatttcg cctgtaagaa gttgtttact 120
gaggacaaac tacatagata tacggctgtg gagatattac gctggctatt tttgctacat 180
ttatacaaat gaagccaggt tggatatcaa atataattcc actagttaca acataacatg 240
tggcggtgaa aacgcaacga ttcccgtagc aagggtggag gagaacataa tagctagtta 300
tgattataca gataaagaag atgtccagca tatcagaaaa tcgtttaaga ctgacgaggt 360
ttttaaaaat tatatatctt gttgccaagg agctataagg tgttgcaatg atcacatgga 420
cgaggaaaat gttattccaa cgcaatcaca atgtcctgta atatgggatg cctggtcttg 480
ttttccacaa actaaagtta atactacagc caagctacca tgtagtagcc aagcatacca 540
atctcccgat gaagtctgta ctttagaaag cgaaaaacac tgcatctgga acggaacaaa 600
tcaaaaagca caatggatcc aacaaactga ctacacaacg tgtgccatan gcgccggttt 660
acgaacgaag atacaacttc catattatat ttctggggag tctgtatcgg cttttgtata 720
ccggcaatat ctatattttt ctttttcgaa aaacttcgaa agaccatcag agttattctg 780
cataggaacc ttttgatagc ccattgtgng tcaggaatgt cttgacaatt atgtgncaag 840
aactagtgct gctagacgct ttaaaagctt cggctctaag tcatcgtacg atggacaaca 900
atggagtccc atggtcggat attggctttt at 932
<210>444
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>444
gctcttcctg atgaatgtag ttctatttcg c 31
<210>445
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>445
cgtacgatga cttagagccg aagctt 26
<210>446
<211>817
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(627)
<223〉n=a, c, g or t/u
<400>446
gctcttcctg atgaatgtag ttctatttcg cctgtaagaa gttgtttact gaggacaaac 60
tacatagata tacggctgtg gagatattac gctggctatt tttgctacat ttatacaaat 120
gaagccaggt tggatatcaa atataattcc actagttaca acataacatg tggcggtgaa 180
aacgcaacga ttcccgtagc aagggtggag gagaacataa tagctagtta tgattataca 240
gataaagaag atgtccagca tatcagaaaa tcgtttaaga ctgacgaggt ttttaaaaat 300
tatatatctt gttgccaagg agctataagg tgttgcaatg atcacatgga cgaggaaaat 360
gttattccaa cgcaatcaca atgtcctgta atatgggatg cctggtcttg ttttccacaa 420
actaaagtta atactacagc caagctacca tgtagtagcc aagcatacca atctcccgat 480
gaagtctgta ctttagaaag cgaaaaacac tgcatctgga acggaacaaa tcaaaaagca 540
caatggatcc aacaaactga ctacacaacg tgtgccatag cgccggttta cgaacgaaga 600
tacaacttcc atattatatt tctgggnagt ctgtatcggc ttttgtatac cggcaatatc 660
tatatttttc tttttcgaaa aacttcgaaa gaccatcaga gttattctgc ataggaacct 720
tttgatagcc attgtggtca ggaatgtctt gacaattatg tgcaaagaac tagtgctgct 780
agacgcttta aaagcttcgg ctctaagtca tcgtacg 817
<210>447
<211>880
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(737)..(860)
<223〉n=a, c, g or t/u
<400>447
ccaaattcag atttggttgg aggagataat tttgaagcct ctaaatattt aaggatactt 60
caacaggcaa tgaatgaaga tgaagaagga ttagtagaaa gacatagagg aatctatgga 120
ttgaaagtag tgaaaaaatc aggtgaaact ggatattggg tgatcaatac taaggtaggc 180
aaaggacaga tagtatttaa tggaaaagac aagccagatg ttactttcat tgttaaggaa 240
gaggatgttt tagaattatt gtctggcaaa attccaccac agaaggcatt tttccaaggc 300
aaagtaaaaa ttcaagggaa tatgggtgta gccatgcgat taatagaatt acagaaaaca 360
gccgctgcca aaattgaggt acttagggct aagttataaa ttacgtttat aggtaatttt 420
ctttatcttt ctgtattgtg tacactaagg ttttgtttta tctttttggg agtatatatt 480
atataagtga caaaacatac tttcttgttt tacacatcac ttcctgtaaa aatattgtac 540
acgctgtaca atgagtcctt tatgtaaaca aatatgtaag tataaatact tgctctgtta 600
tctccttttt attacatatt tttgttgata acttcagaat ctattgacct tttgtgaaat 660
actttcaata ttttgttaac agttgaagac cagtgtaatt tttcctgaga tactaaattc 720
aaatattttt gtttcanaca agtttgttcc gtaaataaac tagacatgta tatcattgta 780
tattattaat aatatgaaac cttgatgtct gtaggtaaat ggtcttaatg atttaatggt 840
ttttcataat ncatagtccn aagtcacaaa atagcatata 880
<210>448
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>448
ggcaat gaat gaagat gaag aaggattagt 30
<210>449
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>449
ccattaaatc attaagacca tttacctaca gaca 34
<210>450
<211>774
<212>DNA
<213>Diabrotica virgifera
<400>450
ggcaatgaat gaagatgaag aaggattagt agaaagacat agaggaatct atggattgaa 60
agtagtgaaa aaatcaggtg aaactggata ttgggtgatc aatactaagg taggcaatgg 120
acagatagtg tttaatggaa aagacaagcc agatgttact ttcattgtta aggaagagga 180
tgttttagaa ttattgtctg gcaaaattcc accacagaag gcatttttcc aaggcaaagt 240
aaaaattcaa gggaatatgg gtgtagccat gcgattaata gaattacaga aaacagccgc 300
tgccaaaatt gaggtactta gggctaagtt ataaattacg tttataggta attttcttta 360
tctttctgta ttgtgtacac taaggttttg ttttatcttt ttgggagtat atattatata 420
agtgacaaaa catactttct tgttttacac atcacttcct gtaaaaatat tgtacacgct 480
gtacaatgag tcctttatgt aaacaaatat gtaagtataa atacttgctc tgttatctcc 540
tttttattac atatttttgt tgataacttc ggaatctatt gaccttttgt gaaatacttt 600
caatattttg ttaacagttg aagaccagtg taatttttcc tgagatacta aattcaaata 660
tttttgtttc aaacaagttt gttccgtaaa taaactagac atgtatatca ttgtatatta 720
ttaataatat gcaaccttga tgtctgtagg taaatggtct taatgattta atgg 774
<210>451
<211>576
<212>DNA
<213>Diabrotica virgifera
<400>451
aaattatcgg catatattat gcaggataac caactacatg ctaatctaag agtggatgaa 60
gctatggctg tcgcagctgc acttaaaatt ggcgccaaaa gtccaaaaga tcgagaagat 120
atcattaacg aaatcctaga cacacttgga ctgctggatc ataagaaaac aatgacaagc 180
gggttgtcgg ggggccaaaa gaagagattg tcaatcgcct tagaattagt tagtaatcct 240
ccagttatgt ttttcgatga acctactagt ggattggatt cttcatcatg ttttcaatgt 300
atatcactgt tgaaaacctt agctaaaggt ggaagaacta taatatgtac tattcaccaa 360
ccttcagcta gactgtttga aatgttcgac caactttata cactcgctga tggtcaatgt 420
gtttaccaag gttctacgac attcttggtg ccctttttgg caagtctgca gttacagtgt 480
ccttcatacc acaatccagc ctcctatatt atagaagtag catgtgggga atatggagat 540
cacacgagaa cgttagttaa cgctatagaa aatggt 576
<210>452
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>452
ggataaccaa ctacatgcta atctaagagt ggat 34
<210>453
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>453
ggaggctgga ttgtggtatg aaggac 26
<210>454
<211>482
<212>DNA
<213>Diabrotica virgifera
<400>454
ggataaccaa ctacatgcta atctaagagt ggatgaagct atggctgtcg cagctgcact 60
taaaattggc gccaaaagtc caaaaagatc gagaagatat cattaacgaa atcctagaca 120
cacttggact gctggatcat aagaaaacaa tgacaagcgg gttgtcgggg ggccaaaaga 180
agagattgtc aatcgcctta gaattagtta gtaatcctcc agttatgttt ttcgatgaac 240
ctactagtgg attggattct tcatcatgtt ttcaatgtat atcactgttg aaaaccttag 300
ctaaaggtgg aagaactata atatgtacta ttcaccaacc ttcagctaga ctgtttgaaa 360
tgttcgacca actttataca ctcgctgatg gtcaatgtgt ttaccaaggt tctacgacat 420
tcttggtgcc ctttttggca agtctgcagt tacagtgtcc ttcataccac aatccagcct 480
cc 482
<210>455
<211>759
<212>DNA
<213>Diabrotica virgifera
<400>455
cccacgcgtc cggtactaca tgtatggtac tgctttagtt gtgttttgac agattcgttc 60
aataatatca tttcttttat ttatttatat attaatcttt gaagatgttg tctggtggct 120
atatattgga attgtgcaat gttttttatt ctggacaggt aaaaaagcgc tctgttcttc 180
aaagaatggt tggcaacatt aaaactgcag taatcttaaa agatgtgtcc atgttggtac 240
attctggtga ggtcctagca gtgctgggat caaaaggtag tgggaagaaa gccttacttg 300
atgttatttc aagacgagca caaggcccta taagaggaca gatatatctg aacaaccatc 360
cagtcagtat gggtttattc cagcagaaat gtgcatatgt tacacataaa tgtgatttta 420
taccaggact aaatgttgaa cagacgttgt attatactcc gactaagttc actggctatt 480
taaaaatgtc taaagtaaag caagtgatag cagatttagc attgtcacaa gtcgctaaaa 540
aatgcgttga agatttgaca aaaagtgaat acagaagact gatgattggt gtccaactaa 600
tcaaaaaccc agtggtacta ttactagacg aacccacctg ggatctggac ccactaaaca 660
catacctaat aatttcaata ctttcaaatg cagctaaaaa gtatggaact gctataatct 720
tgacgatgga gaagcctaga tctgatgttt tcccgttct 759
<210>456
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>456
ggtactgctt tagttgtgtt ttgacagatt cg 32
<210>457
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>457
gcttctccat cgtcaagatt atagcagttc c 31
<210>458
<211>710
<212>DNA
<213>Diabrotica virgifera
<400>458
ggtactgctt tagttgtgtt ttgacagatt cgttcaataa tatcatttct tttatttatt 60
tatatattaa tctttgaaga tgttgtctgg tggctatata ttggaattgt gcaatgtttt 120
ttattctgga caggtagaaa agcgctctgt tcttcaaaga atggttggca acattaaaac 180
tgcagtaatc ttaaaagatg tgtccatgtt ggtacattct ggtgaggtcc tagcagtgct 240
gggatcaaaa ggtagtggga agaaagcctt acttgatgtt atttcaagac gagcacaagg 300
ccctataaga ggacagatat atctgaacaa ccatccagtc agtatgtgtt tattccagca 360
gaaatgtgca tatgttacac ataaatgtga ttttatacca ggactaaatg ttgaacagac 420
gttgtattat actccgacta agttcactgg ctatttaaaa atgtctaaag taaagcaagt 480
gatagcagat ttagcattgt cacaagtcgc taaaaaatgc gttgaagatt tgacaaaaag 540
tgaatacaga agactgatga ttggtgtcca actaatcaaa aacccagtgg tactattact 600
agacgaaccc acctgggatc tggacccact aaacacatac ctaataattt caatactttc 660
aaatgcagct aaaaagtatg gaactgctat aatcttgacg atggagaagc 710
<210>459
<211>837
<212>DNA
<213>Diabrotica virgifera
<400>459
cttaaaaggg agagatctct tcgaggaaaa aaaagtaggt ctctattccg acgaaacgaa 60
agcagtgccc gcagcaatca ttatgcagtt tttgttattg tataagagga atctgctgat 120
aataaagaga tgttacggtc catcgctgaa cagagtattg gcccacattg ttattggtct 180
gatctttggc tatttgtata gaaacgttgg aagtgccgcg gatacagttt tagcaaatta 240
tgtatatttg tatggtactc ttttactcac agtatatact ggtaaaatgc ccgtaacttt 300
atcatttcct ctagaaatga agatactctc tagagagcat tttaaccgtt ggtataagct 360
aactccatat ttattgtctg tgatattagt tgaaattcct ttccaagtta tatgtacatg 420
gatgtacata gcagtatctt attcgttaac gaaccagcca ttagacttta ggttattctt 480
gtttgtcatt tttgtaacag cgtgttctct ctgtggccaa tccatgggat attttatagg 540
agccacaaca ccagtaaagg tagctgtatt catcgcccca gtgttagcct gcttcttatc 600
agtcttcggt ttttgcatca gagcaataga cacctctacc atgttcaaac cgatcttctt 660
catcagttac tttagagcag cattccaaag cgtcgtttat agtatttacg gctttaaccg 720
agagatattg gtttgcccaa tagaggagga atactgtcat tataaagatc ctcacaagtt 780
cctctcggaa atgaaatttt agatgtagat tttagttcaa attttatatt gattggt 837
<210>460
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>460
ggtctctatt ccgacgaaac gaaagcag 28
<210>461
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>461
cgtaaatact ataaacgacg ctttggaatg c 31
<210>462
<211>673
<212>DNA
<213>Diabrotica virgifera
<400>462
ggtctctatt ccgacgaaac gaaagcagtg cccgcagcaa tcattatgca gtttttgtta 60
ttgtataaga ggaatctgct gataataaag agatgttacg gtccatcgct gaacagagta 120
ttggcccaca ttgttattgg tctgatcttt ggctatttgt atagaaacgt tggaagtgcc 180
gcggatacag ttttagcaaa ttatgtatat ttgtatggta ctcttttact cacagtatat 240
actggtaaaa tgcccgtaac tttatcattt cctctagaaa tgaagatact ctctagagag 300
cattttaacc gttggtataa gctaactcca tatttattgt ctgtgatatt agttgaaatt 360
cctttccaag ttatatgtac atggatgtac atagcagtat cttattggtt aacgaaccag 420
ccattagact ttaggttatt cttgtttgtc atttttgtaa cagcgtgttc tctctgtggc 480
caatccatgg gatattttat aggagccaca acaccagtaa aggtagctgt attcatcgcc 540
ccagtgttag cctgcttctt atcagtcttc ggtttttgca tcagagcaat agacacctct 600
accatgttca aaccgatctt cttcatcagt tactttagag cagcattcca aagcgtcgtt 660
tatagtattt acg 673
<210>463
<211>660
<212>DNA
<213>Diabrotica virgifera
<400>463
ttcgtccgaa atcatctagt gtggttcgac tacgcgttta tactaagtaa tctgaagtgg 60
ctggacattc acggtaactt tattgaacat ctcgctaatt attacaagat tcaagacgta 120
atcagagtca aaactttaga tgctagtcat aatcgtatta ccgaaatttc tcctatgtct 180
attcctaata gtatagaact tttatttatt aataacaatt ttatcaaatc ggtgcaacca 240
aatactttcc tcgataaatc aaacttagct cgtgtcgata tgtatgctaa cgacatgaca 300
aatttagatt taaattctct gagaatcgct ccagttcatt cgaaccgttc cttaccagaa 360
atatatcttg gtggcaatac ctttcattgt gactgtacta tggagtggct acagcttatc 420
aacaacatgt cagcatccag gcagtatcct cgtgtaatgg acatggacaa cattgtatgc 480
aaaatgacac attctagagg tatgacacat atgccattaa atcaggcaaa acaaagtgac 540
tttctttgta actacgaaac acattggttt gctctttgcc attgctggga ttttgatgca 600
tgtgattgtg aaatgacttg tcctaataat tggacttgtt accacgatca gacgtggaat 660
<210>464
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>464
ctaagtaatc tgaagtggct ggacattcac g 31
<210>465
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>465
gcaatggcaa agagcaaacc aatgtg 26
<210>466
<211>543
<212>DNA
<213>Diabrotica virgifera
<400>466
ctaagtaatc tgaagtggct ggacattcac ggtaacttta ttgaacatct cgctaattat 60
tacaagattc aagacgaaat cagagtcaaa actttagatg ctagtcataa tcgtattacc 120
gaaatttctc ctatgtctat tcctaatagt atagaacttt tatttattaa taacaatttt 180
atcaaatcgg tgcaaccaaa tactttcctc gataaatcaa acttagctcg tgtcgatatg 240
tatgctaacg acatgacaaa tttagattta aattctctga gaatcgctcc agttcattcg 300
aaccgttcct taccagaaat atatcttggt ggcaatacct ttcattgtga ctgtactatg 360
gagtggctac agcttatcaa caacatgtca gcatccaggc agtatcctcg tgtaatggac 420
atggacaaca ttgtatgcaa aatgacacat tctagaggta tgacacatat gccattaaat 480
caggcaaaac aaagtgactt tctttgtaac tacgaaacac attggtttgc tctttgccat 540
tgc 543
<210>467
<211>894
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(745)..(784)
<223〉n=a, c, g or t/u
<400>467
cgtaaataag attcttgtgt tattatttct tcctttttgc ttcggcaaaa gtgtagaagt 60
gacttttaaa gatgtcacgt tcaaaggctt tagtgttttt acagaaaagt tcaagaaaaa 120
gatcccatct ggaaacaaac tagcagattt tttgcccccg aaaactgttt atgatgccat 180
tgaaatgaag gaacaacata tacctgtact tgccaaaggc tcgttggcag atctagacca 240
gttggacgaa ttggttattg agtactgtgg tgttgaagaa gttgaatctg gagctatcag 300
taatgtacct aacctaagaa aactgtcact taaaggtaat gccatcaagt cgattgcaaa 360
ggacgtattt tcccatttag gaatatctac actagacctt agcctcaatc agatatcaac 420
aatccatcca caggcctttg acaacatgcc ggatctctta aacattcaac ttgctgacaa 480
ttttataacg caatggaatc cagaatggct caagaataca ccgctattga ccaggatctc 540
gcttcagaat aattccatag aaaagctacc agcccatgca tttaaaaaca tggtaggaga 600
taaaaagtat ggaaaaatag acctcactat taatctggta tttagtcata ataaaataag 660
tgagatagat cctgaagctt tcgcggatct cagcagaatt aacaacttgt ggttagataa 720
caatgttcta gaaagtttcg atganaacct tttatcggga ataaaagtta atgatttgag 780
actncacaaa aataatatca aatgtttaga tggtaatcta gataaaatac taaaagcaga 840
aacgaacaca tagattcgaa tccgtcgact gtaattgctt gagaagatca agga 894
<210>468
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>468
gatgccattg aaatgaagga acaaca 26
<210>469
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>469
ctaaccacaa gttgttaatt ctgctgagat cc 32
<210>470
<211>544
<212>DNA
<213>Diabrotica virgifera
<400>470
gatgccattg aaatgaagga acaacatata cctgtactta ccaaaggctc gttggcagat 60
ctagaccagt tggacgaatt ggttattgag tactgtggtg ttgaagaagt tgaatctgga 120
gctatcagta atgtacctaa cctaagaaaa ctgtcactta aaggtaatgc catcaagtcg 180
attgcaaagg atgtattttc ccatttagga atatctacac tagaccttag cctcaatcag 240
atatcaacaa tccatccaca ggcctttgac aacatgccgg atctcttaaa cattcaactt 300
gctgacaatt tcataacgca atggaatcca gaatggctca agaatacacc gctattgacc 360
aggatctcgc ttcagaataa ttccatagaa aagctaccag cccatgcatt taaaaacatg 420
gtaggtgata aaaagtatgg aaaaatagac ctcactatta atctggtatt tagtcataat 480
aaaataagtg agatagatcc tgaagctttc gcggatctca gcagaattaa caacttgtgg 540
ttag 544
<210>471
<211>210
<212>DNA
<213>Diabrotica virgifera
<400>471
gagcgctgac ataaccaaaa agcgcaagcg ccaccacaca aaaaaccgtc ttcattttcc 60
tgagtcgaac gaacctttca caactcaccg tactaatggt actatggtac tagctagcga 120
atgccaaata caaacacggg ctctttgccg gcaaaagact tcttcctcac tgaagatatc 180
ttgtaagttc ttcctctttt caaacgggcg 210
<210>472
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>472
gctgacataa ccaaaaagcg caagc 25
<210>473
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>473
ccgtttgaaa agaggaagaa cttacaagat atc 33
<210>474
<211>203
<212>DNA
<213>Diabrotica virgifera
<400>474
gctgacataa ccaaaaagcg caagcgccac cacacaaaaa accgtcttca ttttcctgag 60
tcgaacgaac ctttcacaac tcaccgtact aatggtacta tggtactagc tagcgaatgc 120
caaatacaaa cacgggctct ttgccggcaa aagacttctt cctcactgaa gatatcttgt 180
aagttcttcc tcttttcaaa cgg 203
<210>475
<211>1139
<212>DNA
<213>Diabrotica virgifera
<400>475
tatttttttt attcttaagt tactgaaaaa attttggcgt gaatacttat gatctttttg 60
tgaaaaagat cttactgtat attttaaata tgtaatttac ttaactcatt cgctgcctgt 120
caagaaaatg gaactcggct agggccgttc tgttaaaagg cgcctgactg attggcgcgt 180
gaatggcacc tgactgaagt aaccatatca cgcgctggag tgtgatcgtc agcgaatggg 240
ttaaatgaca agtggttata gatgtttata cagtctaaat atatacagtg agttaaatat 300
tgggtcgagc tctccgtggg taataataat tattggttca aaaggatcca aacttgtcac 360
gggttagctc tgccggacaa tagattcagt aaaacacagg tttaatttaa ataaaaatat 420
atttttgtaa tccaatacaa taaaataaca acaaaatagt attcaattct ccgactattg 480
tctccctttt ggcacccata tcgagccgct gttgatgaaa tcgggtctca agatatcgtt 540
ggtaagttct ctgcatagtc gaatgattca cattcaattg tcttgccaca tacctttggt 600
ttgctccatt ttccgggaat gtaaccatct gaacacactt tctatacttt ttcatcgtta 660
taaaaataga cttcactgtc aggaggccag tgtaccacga agatatctca gaaactcttt 720
agaagactac aacagttcac acagttctta aaaccatcaa ttctgcgaag cttcgttgat 780
tcgtaaataa cgattggcac ccatatcgag ccgctgttga tgaaatcggg tctcaagata 840
tcgttggtaa gttctctgca tagtcgaatg attcacattc aattgtcttg ccacatacct 900
ttggcttgct ccattttccg ggaatgtaac catctgaaca cactttctat actttttcat 960
cgttataaaa atagacttca ctgtcaggag gccagtgtac cacgaagata tctcagaaac 1020
tctttagaag actacaacag ttcacacagt tcttaaaacc atcaattctg cgaagcttcg 1080
ttgattcgta aataacgatt ggcacccata tcgagccgct gttgatgaaa tcgggtctc 1139
<210>476
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>476
ctcattcgct gcctgtcaag aaaatg 26
<210>477
<211>31
<212>DNA
<213>Diabrot ica virgifera
<400>477
gcagagaact taccaacgat atcttgagac c 31
<210>478
<211>444
<212>DNA
<213>Diabrotica virgifera
<400>478
cgctgcctgt caagaaaatg gaactcgcct agggccgttc tgttaaaagg cgcctgactg 60
attggcgcgt gaatggcacc tgactgaagt aaccatatca cgcgctggag tgtgatcgtc 120
agcgaatggg ttaaatgaca agtggttata gatgtttata cagtctaaat aaatacagtg 180
agttaaatat tgggtcgagc tctccgtggg taataataat tattggttca aaaggatcca 240
aacttgtcac gggttagctc tgccggacaa tagattcagt aaaacacagg tttaatttaa 300
ataaaaatat atttttgtaa tccaatacaa taaaataaca acaaaatagt attcaattct 360
ccgactattg tctccctttt ggcacccata tcgagccgct gttgatgaaa tcgggtctca 420
agatatcgtt ggtaagttct ctgc 444
<210>479
<211>851
<212>DNA
<213>Diabrotica virgifera
<400>479
actttaacgc ctagtgtcga gtctcgtgtg gcatatttca acagatactc aaatattgtc 60
atctaagaag ctggaacagg gatagtcact acgggcataa ctgcacaagc ttgagaaggc 120
taaagaaacc taactggtgt cgcctgatac caggaattgg gtatactctc catctatatt 180
tgtttgcgcc tttcaagtag acttgcacct agtctcgttt ggcttctttc aatagatact 240
caaacctttt cgtctaagca ccacaaatgc acaccctttg gacatttttc ggccaatgtt 300
gagctctacc acggttttct gttctgttcc tattctattc ttgccccaca agaagctggg 360
gaattgatga tctctacggc ataccctcac atgcgggaaa aggctaaaga gatctatgtg 420
gtatcacctg caagatcttt ttgtggatac cctgcttctt ttagaattaa agcgtttatt 480
tgaggctttt ggatagactt taacgcctct agagcttttt tgttttgttt caacagatac 540
tcaaaccttt tccaaattga acttcttagc agttttttta ttcgttccta gtctacacat 600
gtcccaggag aagttactga gtcgccccta gcttcaactc gaccgtgcgc accttataaa 660
tggcgcgtat acgtataatc ctttcccggg cctaccacat cgaataaaaa tgtttcttga 720
ttgatcgatt acatgtttct tacattgtct gtgtatatgt tgtaaatgct tgtttgtttg 780
atgtgcctaa atccgttcta tgtataaata cattcctaga tacttcttat gagtgatgaa 840
atcatagtga t 851
<210>480
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>480
ctttaacgcc tagtgtcgag tctcgtg 27
<210>481
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>481
gaacggattt aggcacatca aacaaac 27
<210>482
<211>797
<212>DNA
<213>Diabrotica virgifera
<400>482
ctttaacgcc tagtgtcgag tctcgtgtgg catatttcaa cagatactca aatattgtca 60
tctaagaagc tggaacaggg atagtcactg cgggcataac tgcacaagct tgagaaggct 120
aaagaaacct aactggtgtc gcctgatacc aggaattggg tatactctcc atctatattt 180
gtttgcgcct ttcaagtaga cttgcaccta gtctcgtttg gcttctttca atagatactc 240
aaaccttttc gtctaagcac cacaaatgca caccctttgg acatttttcg gccaatgttg 300
agctctacca cggttttctg ttctgttcct attctattct tgccccacaa gaagctgggg 360
aattgatgat ctctacggca taccctcaca tgcgggaaaa ggctaaagag atctatgtgg 420
tatcacctgc aagatctttt tgtggatacc ctgcttcttt tagaattaaa gcgtttattt 480
gaggcttttg gatagacttt aacgcctcta gagctttttc gttttgtttc aacagatact 540
caaacctttt ccaaattgaa cttcttagca gtttttttat tcgttcctag tctacacatg 600
tcccaggaga agttactgag tcgcccctag cttcaactcg accgtgcgca ccttataaat 660
ggcgcgtata cgtataatcc tttcccgggc ctaccacatc gaataaaaat gtttcttgat 720
tgatcgatta catgtttctt acattgtctg tgtatatgtt gtaaatgctt gtttgtttga 780
tgtgcctaaa tccgttc 797
<210>483
<211>1612
<212>DNA
<213>Diabrotica virgifera
<400>483
ctcagctatg atatatattt cttaataaat cttatagtat caacacatgg attcttagaa 60
ctactcttat atgactaaat ttttacataa tctctaaaaa tcccagcatt tcatgctttt 120
ctcttcatac cctttcttcc cagcttcagg cactataatt atttactgta agatttcgca 180
ttaatgatat agagcatttt ttatatgaac cataaaaaga tcagtatgtt taaaatagtg 240
tacctcgatg gttttgatgg ttttttcgtt tgttggattg attgtttaaa aatattattt 300
gttttggtat tggtttcaat gtgacaaaag tcaagaatca agcatttttg ttgtatccac 360
agtaggaata gtatagcaaa caatattcaa gtatttttat ttaaaatgaa aaattatttt 420
tagcttttta ggtcacctgt tggcaaataa ccttgaaaat gtagaacata ttgctgatga 480
attatgattc tcatatttgt tttttatgag tcaaaatacg ccgtaatatt ataacaatat 540
tatttattta aattattata aaatcagaag attttcatta aatgatgaat taggattgaa 600
cgagctgtga taaattaccc gaaaatatcc acaatgttgc caaaagcaac attttggaca 660
cagtaatgcg acattacagg atgtattatt ttaactgtaa aaggattgta ttcagacaaa 720
ttaatgatag ggcttgtcca gatagatcca tttatatctg ttcgaacagt caagcacctc 780
taaaggctct ggaagcaccc aagcaagtca gctctaagtt gattcttgaa tgcaagatag 840
cattgtctga ttggtcagag gtgaaagatc ctggattcga cctttacgca accgagctca 900
atgaaggagt tacctctaaa taattgtggc tttctgtgag accacaagtt tattaaagca 960
ttagacgtga ggaacggcac gaaagagctc atatttagag accctgctgg ttctagcaga 1020
tatgggagct cgaaatagcc tggaccccag aaacggcgaa gagtatgttc ttatgggcat 1080
agtctgggcg ataggagcga cacaactgac ccgccttaga atgtctaaag ggctcccaaa 1140
tgggtccttc cccgatctac catgacatta ttaacattgt gcttttggta aaaagtacgc 1200
tacacaacat aatattttaa attctgctta gcgccaatgt tagggggacc taatatgaca 1260
cagaaataag cttatcgttc aaatctcggc accaacgaca ttttcatttc tacaaatgat 1320
acgagccgtg caccgtactt cggaggacac gaaaagccgt cggtcccctt gggctagtgt 1380
gcattgacac tagctacttg aaacagggtt aaagctgcaa ttgaccggaa gctgtccgaa 1440
aggatcaccc cggtaaaaat accatacgat attattatat aatcatacaa aaacgctata 1500
tatcaataat acgaaaattt cttatgtaaa atgttttcca aaatatttct attatactct 1560
taattataag acattctaaa ttttgcgaaa taaactttaa gctctgctta tc 1612
<210>484
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>484
ctcttcatac cctttcttcc cagcttca 28
<210>485
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>485
gcacaatgtt aataatgtca tggtagatcg 30
<210>486
<211>1081
<212>DNA
<213>Diabrotica virgifera
<400>486
ctcttcatac cctttcttcc cagcttcagg cactataatt atttactgta agatttcgca 60
ttaatgatat agagcatttt ttatatgaac cataaaaaga tcagtatgtt taaaatagtg 120
tacctcgatg gttttgatgg ttttttcgtt tgttggattg attgtttaaa aatattattt 180
gttttggtat tggtttcaat gtgacaaaag tcaagaatca agcatttttg ttgtatccac 240
agtaggactg gaatagtata gcaaacaata ttcaagtatt tttatttaaa atgaaaaatt 300
atttttagct ttttaggtca cctgttggca aataaccttg aaaatgtaga acatattgct 360
gatgaattat gattctcata tttgtttttt atgagtcaaa atacgccgta atattataac 420
aatattattt atttaaatta ttataaaatc agaagatttt cattaaatga tgaattagga 480
ttgaacgagc tgtgataaat tacccgaaaa tatccacaat gttgccaaaa gcaacatttt 540
ggacacagta atgcgacatt acaggatgta ttattttaac tgtaaaagga ttgtattcag 600
acaaattaat gatagggctt gtccagatag atccatttat atctgttcga acagtcaagc 660
acctctaaag gctctggaag cacccaagca agtcagctct aagttgattc ttgaatgcaa 720
gatagcattg tctgattggt cagaggtgaa agatcctgga ttcgaccttt acgcaaccga 780
gctcaatgaa ggagttacct ctaaatataa ttgtggcttt ctgtgagacc acaagtttat 840
ttaagcatta gacgtgagga acggcacgaa agagctcata tttagagacc ctgctggtcc 900
tagcagatat gggagctcga aatagcctgg accccagaaa cggcgaagag gggtttatgg 960
tttattttct taggggcata gtctggacga taggagcgac acaactgacc cgccttagaa 1020
tgtctaaagg gctcacaaat gggtcctttc ccgatctacc atgacattat taacattgtg 1080
c 1081
<210>487
<211>919
<212>DNA
<213>Diabrotica virgifera
<400>487
ccctcactta tttactaaga ttccatcata tttctaagcg ataaaattta gggaagaatt 60
tatgaaatgt catcttaaaa cgtgagagca aattggcaca aacttgagcg ttgaatcagt 120
agtggataaa catcattcga atgatgaatt tgttttattc tcacctgtaa aaaaaacaaa 180
gtgtaaatag tataagatta agtgtatatt gatattagaa ataaatggcg gcgtaccaat 240
tttctaaaag aaggagttct tcaatcaaaa aggaattcaa cgagagtgag ctagaaggtc 300
tgaaaattgc ttttgagctg ctggatcgga accaagatgg acaggtcaca ccgggagagt 360
tcaagatcat gctgaataat ttaggaattg acattaagta ttaaaaaagc tgaagagata 420
attaggattg ccagtcattc aggctcagac ttaatagacc aaaacgactt cctttctttc 480
gttaaacaga ttcaaaaagc atgtccagga gacgtagacg aggatatagc tagtgaccta 540
aaggcagcct ttcaagtttt tgatttggac ggagatggtt atattacaaa agaggaatta 600
aaaactgcca tggaaatgat tggggaagct gttacagatc aacaattgga acaggttatt 660
cgactggctg atactgataa ggatggaagg ataaactatg aagaatttgt taagttatta 720
acatcgtaaa gagagtaaga agaacaaagc ttaaaatggt tccaatgttc tatggtaaat 780
atttggtttt aagtaaaagc caggctgtga tccatgttta caattaaata tcattaagca 840
aacatatttt gactgaattg agaaatattt aatggatatt tttgtttcct aagtagatac 900
ctaggtaatt attgtaaag 919
<210>488
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>488
cttgagcgtt gaatcagtag tggataaaca t 31
<210>489
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>489
ccttccatcc ttatcagtat cagccag 27
<210>490
<211>589
<212>DNA
<213>Diabrotica virgifera
<400>490
cttgagcgtt gaatcagtag tggataaaca tcattcgaat gatgaatttg ttttattctc 60
acctgtaaaa aaaaaacaaa gtgtaaatag tataagatta agtgtatatt gatattagca 120
ataaatggcg gcgtaccaat tttctaaaag aaggagttct tcaatcaaaa aggaattcaa 180
cgagagtgag ctagaaggtc tgaaaattgc ttttgagctg ctggatcgta accaagatgg 240
acaggtcaca ccgggagagt tcaagatcat gctgaataat ttaggaattg acattaagta 300
tgaaaaagct gaagagataa ttaggattgc cagtcattca ggctcagact taatagacca 360
aaacgacttc ctttctttcg ttaaacagat tcaaaaagca tgtccaggag acgtagacga 420
ggatatagct agtgacctaa aggcagcctt tcaagttttt gatttggacg gagatggtta 480
tattacaaaa gaggaattaa aaactgccat ggaaatgatt ggggaagctg ttacagatca 540
acaattagaa caggttattc gactggctga tactgataag gatggaagg 589
<210>491
<211>914
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(833)..(862)
<223〉n=a, c, g or t/u
<400>491
gttaaaaaaa acgctccctg acgctcttgc ttccggttgc accaaatgca acataaaaca 60
aaaagacacg gctgagaagg taatgaaaca tcttatgtca aggaggccga aagactggga 120
cagacttacc aagaagtatg atccacaagg aaactttaaa aaacgttacg aggaacactt 180
gcaaaaagaa aagaaagcgg cttagaaaat tatctttaaa gaagatgaaa agtcaaacat 240
tttgttgtgt ttaataattt tattgtaatt tttttttcac ttatagggga gtgcaattag 300
aacgaaaaga tacaatgttt cggaaaaaat caaacaaggt tatatttttc taaaactttt 360
tttgttagtt tataaatatg ttaaagtaaa aacttctact cacaaatttt gccgctaatt 420
gtttattaat tgtttaaaca ataacaattg ctttgtataa ataatgttaa gaatatgggt 480
gaattcaaca ttttattttg ataaaaaatg tttttatttt agttttgatt atgctgaacc 540
cgaatctgac attacaattt gcaaattcaa aatggcggat tttttcctaa aaatccttaa 600
aaagtagttg taaaatccga ttttttttta taaaatgtgt ttgtttgcat attatatgtg 660
gatatttttg agaggttgct gaacctgaat aaaattttga taatttaaat tataaaatgg 720
cagatccaaa atggcggata gcttaaaaaa tagttgtaaa atcataattt ctttacaaga 780
tgtatttatt tctacatata tttatttttg agtgctttga taaacctaac ttnnaatgta 840
acattataaa ctanntaaat gncggatcca aaatgcggct tttcataaaa gaacataaaa 900
aagacatttt tcta 914
<210>492
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>492
cggctgagaa ggtaatgaaa catcttatg 29
<210>493
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>493
gttcagcaac ctctcaaaaa tatccaca 28
<210>494
<211>616
<212>DNA
<213>Diabrotica virgifera
<400>494
cggctgagaa ggtaatgaaa catcttatgt caaggaggcc gaaagactgg gacagactta 60
ccaagaagta tgatccacaa ggaaacttta aaaaacgtta cgaggaacac ttgcaaaaag 120
aaaagaaagc ggcttagaaa attatcttta aagaagatga aaagtcaaac attttgttgt 180
gtttaataat tttattgtaa tttttttttc acttataggg gagtgcaatt agaacgaaaa 240
gatacaatgt ttcggaaaaa atcaaacaag gttatatttt tctaaaactt tttttgttag 300
tttataaata tgttaaagta aaaacttcta ctcacaaatt ttgccgctaa ttgtttatta 360
attgtttaaa caataacaat tgctttgtat aaataatgtt aagaatatgg gtgaattcaa 420
cattttattt tgataaaaaa tgtttttatt ttagttttga ttatgctgaa cccgaatctg 480
acattacaat ttgcaaattc aaaatggcgg attttttcct aaaaatcctt aaaaagtagt 540
tgtaaaatcc gatttttttt tataaaatgt gtttgtttgc atattatatg tggatatttt 600
tgagaggttg ctgaac 616
<210>495
<211>802
<212>DNA
<213>Diabrotica virgifera
<400>495
catatttctc ttttttgtta gtttcgtatt atcttttttt acaattatca aaaataagta 60
atacaacagg ttttaagaca tcaatatgac actaaaagtg gttttatatt ttgggatgta 120
tctaattgca gagatatctg gacatgggat gatgttaaat cccccaggaa gaagttcttt 180
ctggaggttt aacgacactg cacctcgaaa ttttgacgat aatcaagtgt tctgtggtgg 240
agcttatgtc caaaatgaac tgaatgatgg caagtgtggt gtatgtggag atccttatac 300
agatcctcat ccccaaagaa acgaaaatac cggattttat ggtataggaa ttgtcgtcaa 360
gacctatgaa ccaggctcag ttattgatgt taaaatcatg ctaactgcta atcatctagg 420
aaatttcaca tacagtctat gtgaactcga agattttgac gctccagaac ctgaaaattg 480
ttttgaagat ttgttactgg aggatggttc agctaactat aatgtagagt gggaagatga 540
agtagtcttc aataaggttc gactgccaaa tttccaatgc gagagatgtg ttcttagatg 600
gacttataaa gcaggaaaca actgggggct atgtgaggat ggaaaatgga gaagaggatg 660
tggacctcaa gaacatttca tatcatgcgc agatattgca ctattataat tataaagaca 720
tttaacacta ttcagtaatt ttatagatct tatcctggat aagcgcaccc gcgtaccaaa 780
gaaggttgat tgatggcaag ct 802
<210>496
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>496
ctttctggag gtttaacgac actgcac 27
<210>497
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>497
gcttgccatc aatcaacctt ctttgg 26
<210>498
<211>625
<212>DNA
<213>Diabrotica virgifera
<400>498
ctttctggag gtttaacgac actgcacctc gaaattttga cgataatcaa gtgttctgtg 60
gtggagctta tgtccaaaat gaactgaatg atggcaagtg tggtgtatgt ggagatcctt 120
atacagatcc tcatccccaa agaaacgaaa ataccggatt ttatggtata ggaattgtcg 180
tcaagaccta tgaaccaggc tcagttattg atgttaaaat catgctaact gctaatcatc 240
taggaaattt cacatacagt ctatgtgaac tcgaagattt tgacgctcca gaacctgaaa 300
attgttttga agatttgcta ctggaggatg gttcagctaa ctataatgta gagtgggaag 360
atgaagtagt cttcaataag gttcgactgc caaatttcca atgcgagaga tgtgttctta 420
gatggactta taaagcagga aacaactggg ggctatgtga ggatggaaaa tggagaagag 480
gatgtggacc tcaagaacat ttcatatcat gcgcagatat tgcactatta taattataaa 540
aacatttaac actattcagt aattttatag atcttatcct ggataagcgt acccgcgtac 600
caaagaaggt tgattgatgg caagc 625
<210>499
<211>899
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(793)..(880)
<223〉n=a, c, g or t/u
<400>499
caactaaaag cttcttgggg acatttgttg caaatcatca ggaaaatgca tatcgagagc 60
gagcagatgc aatttccagg agagttacta cgatggaacc tacatctacg actcctccag 120
aactgataat tccttcaatt acgacaactc tacctccaac aaccacaggc ataaggacaa 180
gggtcgaaac gggcgacgaa gctgtaagct tgggtttacc atgcgtgact gacatgcaat 240
gcaaaatggc tgattcatct tcaaaatgca tagaaggaat ttgcgactgt attattcgga 300
caaatggcac acgatcttgt tcggctaaaa atcgtggatg tattcccgga acatttcagt 360
gtcgaagcac cggtacatgc atcagttggt ttttcgtttg cgatggtaga aaagactgca 420
gcgatggatc agatgaagaa tgcttaccta acaaatgtcc ccaagaagct tttagttgca 480
aatcatcagg aaaatgcata tcgagagcga gcagatgcga tggatccaag gactgtgcct 540
tgggagagga cgaaatgaac tgtcaggcta tcggaagaaa aggttgtcca ccagatactt 600
ttcagtgcag agatgggaaa tgtctacccg agtacgaatt ttgtaatgct ataattggtt 660
gtagtgatgg cagtgacgaa ccacctcaca tttgcaaagg acgagcgaga aggagaagaa 720
cagaatattg tcctttacga tgtggaaatg gcagatgccg atctagcgca attgcttgtt 780
ctggaagaga tgngtgcggt gatggcacag atgaaagtca atgttcagtt tgtagatgtc 840
ccgtgattaa gagcgcactt atangtcgtt aatttttcgn ttgacttgta catgccaaa 899
<210>500
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>500
gcaatttcca ggagagttac tacgatgg 28
<210>501
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>501
ggtggttcgt cactgccatc actac 25
<210>502
<211>617
<212>DNA
<213>Diabrotica virgifera
<400>502
gcaatttcca ggagagttac tacgatggaa cctacatcta cgactcctcc agaactgata 60
attccttcaa ttacgacaac tctacctcca acaaccacag gcataaggac aagggtcgaa 120
acgggcgacg aagctgtaag cttgggttta ccatgcgtga ctgacatgca atgcaaaatg 180
gctgattcat cttcaaaatg catagaagga atttgcgact gtattattcg gacaaatggc 240
acacgatctt gttcggctaa aaatcgtgga tgtattcccg gaacatttca gtgtcgaagc 300
accggtacat gcatcagttg gtttttcgtt tgcgatggta gaaaagactg cagcgatgga 360
tcagatgaag aatgcttacc taacaaatgt ccccaagaag cttttagttg caaatcatca 420
ggaaaatgca tatcgagagc gagcagatgc gatggatcca aggactgtgc cttgggagag 480
gacgaaatga actgtcaggc tatcggaaga aaaggttgtc caccagatac ttttcagtgc 540
agagatggga aatgtctacc cgagtacgaa ttttgtaatg ctataattgg ttgtagtgat 600
ggcagtgacg aaccacc 617
<210>503
<211>1103
<212>DNA
<213>Diabrotica virgifera
<400>503
gacatgttgt tacaaaacat tttggagaga agatcctgat gatgatgttg cagaccataa 60
agtaagatac agtgaagatt gtcaagcatt tgttaatacg actgaagtaa aagaagagtt 120
tataaaagtt acatgcagct acaacaatcg tgatatttat actgatttat ttgcttttgt 180
ccctgtaaaa aacctatcgg aaaatgtgaa aaacgatctg atccaagacg agtcctcttt 240
aaatatttta gtgttgggct tagatgctat ttcaagatta aattttcata gacaaatgcc 300
aaagacatta agttatttag aacaaattgg agccgtagaa atgatgggat ataataaggt 360
tggtgacaat acatttccca atctaattcc agcattaaca ggaaaaactg taaaggaaat 420
cgagaacgat tgctggccaa ctaaaacaca ccattttgat aaatgtccgt tcatatggaa 480
gagctacaaa caaaaaggat atgtaacagc tttcgacgaa gactcttctt gggtgggaac 540
atttaatcat ataaaaaacg gtttcaaaaa acaaccaacg gactatgctt tcaactattt 600
tgattttgag gctataagat tactgggaaa tactgggttg gaaactgttg aaatttgtca 660
aggagcaagg tgggtatata aagttcattt gaactactta tccaatttcg ttcgaacgat 720
ggaagataac ttactaaagt attttggctt tttctggcag aacagtatat ctcatgatga 780
tctaaattta cctagaatag gtgatgatca ttactactct atgtttaaat attttgggaa 840
aaatggttat ttcaatatta catttctctt cgttttgagc gaacattgga ataaaaaact 900
ggtaaaaata agaaagacat tcccagggca tggtgggaaa aaaagattac cgttaccttt 960
ttgtatattt ttcccaaatt ggtaataaaa aaacgatacc catcccggaa aattaaaaaa 1020
tttaaaaaaa aaaatttttt ttggcgttta acaacacccc tttttgtatt ttttattgga 1080
aaattttttt tttcttttgg ttt 1103
<210>504
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>504
ggagagaaga tcctgatgat gatgttgc 28
<210>505
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>505
cgaacgaaat tggataagta gttcaaatga 30
<210>506
<211>691
<212>DNA
<213>Diabrotica virgifera
<400>506
ggagagaaga tcctgatgat gatgttgcag accataaagt aagatacagt gaagattgtc 60
aagcatttgt taatacgact gaagtaaaag aagagtttat aaaagttaca tgcagctaca 120
acaatcgtga tatttatact gatttatttg cttttgtccc tgtaaaaaac ctatcggaaa 180
atgtgaaaaa cgatctgatc caagacgagt cctctttaaa tattttagtg ttgggcttag 240
atgctatttc aagattaaat tttcatagac aaatgccaaa gacattaagt tatttagaac 300
aaattggagc cgtagaaatg atgggatata ataaggttgg tgacaataca tttcccaatc 360
taattccagc attaacagga aaaactgtaa aggaaatcga gaacgattgc tggccaacta 420
aaacacacca ttttgataaa tgtccgttca tatggaagag ctacaaacaa aaaggatatg 480
taacagcttt cgacgaagac tcttcttggg tgggaacatt taatcatata aaaaacggtt 540
tcaaaaaaca accaacggac tatgctttca actattttga ttttgaggct ataagattac 600
tgggaaatac tgggttggaa actgttgaaa tttgtcaagg agcaaggtgg gtatataaag 660
ttcatttgaa ctacttatcc aatttcgttc g 691
<210>507
<211>813
<212>DNA
<213>Diabrotica virgifera
<400>507
tgaagtgaaa gattgctaag gtgaaattga atcggttacg ggggactgta caattgtcgg 60
ttttagtgtt aaacattttt gagaaaaaat ggccagtttt tgggccgttt ttgtttttgg 120
agttgcattc acacttacag agcactgcca cggagctcag tacttcggaa aactcatagg 180
aaaactttcg gaattacacc acggcgtctc cggagaagtt tacgcagtag atgcgaggac 240
tttgtacatc aaggatttca cttatgacgg acaaggaccc gccgcttatt tttacgccag 300
cgtccacaaa gcggctgaca aacacggttt ccggttgaga gatgagacgg gaagcggaga 360
agtaatcagg aggtacagga aggagggaat cactctcacg ctgccagaag gaaagaccat 420
acacagcatc aagatatttt atctttggtg cgaggaattt gacgttaact ttggtgatgt 480
taaagttcct cgtggttttg actatccacg accacaaaaa attgaatctc tcaaaggtgt 540
ccacgcaatt tcgtcagaca acatcgtcat cgtggatgcc cagacgctgt tgattccaaa 600
cttgtcttat gatggcgaag caccagatgc caaattctcg ggttggtcgt ggcagcaaac 660
ctactccaca aggtatccga gtccctgacg agaatggcaa agaagtgccc cttagaagat 720
atgacagaaa gacagtggta cttacacttc caggcgattt gacagttttt gacattggac 780
attttggaat ctggtgcgag atgtttactg ttg 813
<210>508
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>508
tgctaaggtg aaattgaatc ggttacg 27
<210>509
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>509
caacagtaaa catctcgcac cagattc 27
<210>510
<211>799
<212>DNA
<213>Diabrotica virgifera
<400>510
tgctaaggtg aaattgaatc ggttacgggg gactgtacaa ttgtcggttt tagtgttaaa 60
catttttgag aaaaaatggc cagtttttgg gccgtttttg tttttggagt tgcattcaca 120
cttacagagc actgccacgg agctcagtac ttcggaaaac tcataggaaa actttcggaa 180
ttacaccacg gcgtctccgg agaagtttac gcagtagatg cgaggacttt gtacatcaag 240
gatttcactt atgacggaca aggacccgcc gcctattttt acgccagcgt ccacaaagcg 300
gctgacaaac acggtttccg gttgagagat gagacgggaa gcggagaagt aatcaggagg 360
tacaggaagg agggaatcac tctcacgctg ccagaaggaa agaccataca cagcatcaag 420
atattttatc tttggtgcga ggaatttgac gttaactttg gtgatgttaa agttcctcgt 480
ggttttgact atccacgacc acaaaaaatt gaatctctca aaggtgtcca cgcaatttcg 540
tcagacaaca tcgtcatcgt ggatgcccag acgctgttga ttccaaactt gtcttatgat 600
ggcgaagcac cagatgccaa attctgggtt ggtcgtggca gcaaacctac tccacaaggt 660
atccgagtcc ctgacgagaa tggcaaagaa gtgcccctta gaagatatga cagaaagaca 720
gtggtactta cacttccagg cgatttgaca gtttttgaca ttggacattt tggaatctgg 780
tgcgagatgt ttactgttg 799
<210>511
<211>1550
<212>DNA
<213>Diabrotica virgifera
<400>511
aaagactcgt tttaagtagg tgtgtaaaaa tttttatgaa ataatataaa aaaaacgtgt 60
cgattcctgt gtatattaaa aattggggtt agattgtatt aacttattat ctgcacacaa 120
tttctgagga agttaacaaa taatatttcc tgagccgaaa ctgaaagaat acagcatgca 180
tcacagtaat taaaaaaaat ctattatctg tatctgttat tataatagtc tcccgtttta 240
taccgctaaa gcggctttgg gattatagca gggtagtctg ctatatctag tgcctacggt 300
atacaagaaa ggtaacaggg tcagtgctac gcttcaaccg cctattatta cccctggttt 360
tacccaaagt actaatttta ttcaggctga gtcgacctgg ggcctataga catttttaaa 420
aatgtctaga tgttctcgcc ggcgcgggtt tcgaaccccg gcctaccagc atgcgagtca 480
gatatcctac agcctgagct acggcggccc ttattaaata gcaaaatgtt aacggacaaa 540
ttaacaataa ttttatatat cttaaggtct aggttatagc gtatttttaa tcgactaata 600
aattatttaa catatccatt atttgaatca aaaataaaga agccattcta aaatttacat 660
aaagacacat aataatatat taactaactt cttgaaaata cgccactgaa tgaatgcaga 720
aaatctgatc gtttcgccgg acgggcctta ggtaactctt agcgaaaatc gccattttgc 780
gcacgttatt cgcactatac gttatacatt gtaacgctag acatacccag actagtagat 840
acttagccca aacctaataa tgttaaaaat caatcgttat ctaccaccaa ttttatcgga 900
tcaggaatat agtacaaatt taataactaa aggcagctat aaagcaaata tagattgtct 960
tgaaatttga tttaaatgaa attttgaaac cgcaaaaaga cattcatgga atattgaaaa 1020
ttgtaaaaga tttatgaaat ttctaatcat ttctttttcc taacaagtag aatccagttc 1080
aataggacta gctttgaaat gcaaaactat attacgcaat aatgacatgt aatcctaaaa 1140
attttaatat taaatgacta atgaacatta caaatttatt aatacattga tagtttcgat 1200
gtgactcgat aaatcaaacg tattttggta gcgtaaaaac caaggaaaca gtattgaaga 1260
cattttaaat ttttccacat atattgactt ttttcataga aatcgaatta aaagtggttt 1320
tatttcactt taccttctaa ttgtttatta ataactttaa atagttaatt aacttattac 1380
ttctaagaat tttaacaaac aaaagatttg gttatttttt tataacttta ccatgcttaa 1440
taattttaca cttaatttaa tagcaccaaa atttacatgt ttataattta tataaacata 1500
aatcaagttt tgcataatgc agaacgaaat tttggaattt tagtttaatc 1550
<210>512
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>512
cagggtagtc tgctatatct agtgcctacg g 31
<210>513
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>513
gctagtccta ttgaactgga ttctacttgt tagg 34
<210>514
<211>824
<212>DNA
<213>Diabrotica virgifera
<400>514
cagggtagtc tgctatatct agtgcttacg gtatacaaga aaggtaacag ggtcagtgct 60
acgcttcaac cgcctattat tacccctggt tttacccaaa gtactaattt tattcaggct 120
gagtcgacct ggggcctata gacattttta aaaatgtcta gatgttctcg ccggcgcggg 180
tttcgaaccc cggcctacca gcatgcgagt cagatatcct acagcctgag ctacggcggc 240
ccttattaaa tagcaaaatg ttaacggaca aattaacaat aattttatat atcttaaggt 300
ctaggttata gcgtattttt aatcgactaa taaattattt aacatatcca ttatttgaat 360
caaaaataaa gaagccattc taaaatttac ataaagacac ataataatat attaactaac 420
ttcttgaaaa tacgccactg aatgaatgca gaaaatctga tcgtttcgcc ggacgggcct 480
taggtaactc ttagcgaaaa tcgccatttt gcgcacgtta ttcgcagtat acgttataca 540
ttgtaacgct agacataccc agactagtag atacttagcc caaacctaat aatgttaaaa 600
atcaatcttt atctaccacc aattttatcg gatcaggaat atagtacaaa tttaataact 660
aaaggcagct ataaagcaaa tatagattgt cttgaaattt gatttaaatg aaattttgaa 720
acagcaaaaa gacattcatg gaatattgaa aattgtaaaa gatttatgaa atttctaatc 780
atttcttttt tcctaacaag tagaatccag ttcaatggat aagg 824
<210>515
<211>1452
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(1400)..(1420)
<223〉n=a, c, g or t/u
<400>515
aataaataaa ccaatttaat atattagaac atttttaata atacttttat tttaaatcaa 60
tgtattcata aataatcttg tcactggcat actagcaaaa accatgtaac ttaaaactca 120
tttcataaag tttataagtt atgctgatga gttttgttat cagaagatta cgtacctatc 180
agcttttaat cattcgcata ctttggtgtg tttttatcaa ataaggctaa taagaaaatt 240
catgataaaa cattcggaaa tgtttaaata caacacgcaa ttaaaaaaaa gcagcataaa 300
atttagacga attagtacaa agtgtaccta cttaaaattt acctttttga gtaatttttt 360
atgctgagaa tttaaaaaaa aatccgataa ttttgtctaa aagtacagaa aatatttttt 420
ttaggttata ctttaataag ttacatggtt ttgaatagca tttgaaatgt tttctaagta 480
ctagctagga tttttttatt tattatctaa tcaatcacat tttacactaa tattctcaaa 540
atcacattta gattttaata aaaaaattct ccatttgtaa aatttaaatt gttctccata 600
gtaaatgcaa atttataaag taaaaaaaca ctaaactatc tatcattaat ataggtccca 660
tagataataa taaatagaaa gaatattata atagttattt tcctaagaag tgcagatagt 720
cattattttc cgcacgcgac tgcagtttgc cgaacgacgc gaagcgggag ttcggcaacc 780
agtcgagtgc ggaaaagaga ctttctgtaa gagttaggaa caatattttt tacgagtctt 840
taaaaaatta ccaaatctta atcaattaat ttaattaata tgaaaataca tacacaaatt 900
aattctttga gaaggttgtc aaaaccaaac tttcaatata attagttagc atgacgacga 960
tcttggtttc catgacgatg attcaaaacg actgttattg tctaccgatt tgactttcga 1020
atattatgtc aaaataatta tatttcatcg aattgtcgcg ttaatttcag gaacacaata 1080
caagatatat ttgaaataaa ttagtaaata atatctaaat attagtttat tgcatgtatt 1140
ataattactt taaggccata ttaacatatc taaattaaca cgcgtgcgga aaagtaacac 1200
gcgtgcggaa tagtgaaact ttctaaacta aaatgggtgc gcgaaagtag acatttttgc 1260
acgctcgtag aaaaatgatt tattgacgtt tcgacttcca cttcggaggt cgttatctaa 1320
atacaaaata ctcgacaaac tgaaaagtcg ccgaattgcg tcccagtggg gatttcaatg 1380
atctttgaaa tttcccttan atagatggac tagctggttn tcgcttcaga gatgtacact 1440
ctgctctgct ga 1452
<210>516
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>516
tgctgatgag ttttgttatc agaagattac g 31
<210>517
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>517
ggaaaccaag atcgtcgtca tgctaac 27
<210>518
<211>828
<212>DNA
<213>Diabrotica virgifera
<400>518
tgctgatgag ttttgttatc agaagattac gtacctatca gcttttaatc attcgcatac 60
tttggtgtgt ttttatcaaa taaggctaat aagaaaattc atgataaaac attcggaaat 120
gtttaaatac aacacgcaat taaaaaaaag cagcataaaa tttagacgaa ttagtgcaaa 180
gtgtacctac ttaaaattta cctttttgag taatttttta tgctgagaat ttaaaaaaaa 240
atccgataat tttgtctaaa agtacagaaa atattttttt taggttatac tttaataagt 300
tacatggttt tgaatagcat ttgaaatgtt ttctaagtac tagctaggat ttttttattt 360
attatctaat caatcacatt ttacactaat attctcaaaa tcacatttag attttaataa 420
aaaattctcc atttgtaaaa tttaaattgt tctccatagt aaatgcaaat ttataaagta 480
aaaaaacact aaactatcta tcattaatat aggtcccata gataataata aatagaaaga 540
atattataat agttattttc ttaacaagtg cagaaagtca ttcttttccg cacgcgactg 600
cagtttgccg aacgacgcga agcgggagtt cggcaagcag tcgagtgcgg aaaagagact 660
ttctgcaagc gttaggaaca atattttttc tacgagtctt taaaaaatga ccaaatctta 720
atcaattaat ttaattaata tgaaaataca tacacaaatt aattctttga caaggttgtc 780
aaaattaaac ttcagcataa ttggttagca ttacgacgat cttggtcc 828
<210>519
<211>1380
<212>DNA
<213>Diabrotica virgifera
<400>519
gagtttcttc ttgcgtaaat aatttggtat ttttttatgt ttattgattc cgtttatccc 60
ttccattttt ttcgattatt attcctgtgg aatagattcg cgttttctag tgtcttctcg 120
tactaatatc tcctctatag aaactaaata atataaaaaa tatataagac aaatataaaa 180
tctgttacac aactgtcatt agagattgaa ataaagctta agatttttta acttgcctac 240
aatagagttg ataacaggtt ttgtttcaca tctctatact tatgcctgta aactgtagaa 300
tctgttccga atgtcagcat taagttacac attaactgcc gatatctgtt ctttcttaaa 360
taattgccag aaaatttcgt ctaatcttca acgccataaa tgcaatgtaa aaattaatct 420
tagtatactt gtgagtgcag aaggtgtgct attgcctttt taaacacatg gcatacttac 480
attatattat cgttaaatgt attcctatcc agacctcgtt ccaacatatt gcggctagga 540
gcagaagaat aagacagctg acaagctaac ctactgacag ttgacattga cattattatt 600
atgaatgaca caaaatgtat ttaagttcag tcatcatttt tatataaaat tcacatctta 660
ttgctaaata ttattttcca gttatttgat tataaagatc agtgcaacgt agtagcctat 720
ataaatattc taaatctact cacagccaag aagaaacagg ctaaacccgc taccttattc 780
ggaaagttgg ttacgtgatg attatgaatt tgactctttt tattagctgt gaatatgtat 840
ttagtaataa aatatacttt atatcaaaac ggtaactttg cttcacaata gggctattta 900
ttgcatcatt gccaccattt ttctcgcaca cttgacatat gacatacaat atgcgtcata 960
cgtctttgat atataattgg tatataccaa tgacgtatta cgtatatatt gtacgtcata 1020
tgtcaatagc catctggaac atgcgcatat cgtaatattt cactattatc tcaactgtca 1080
cttacctctg caaacaggta ttcaaatgca ggtctggaaa ctggctttgg ttaagattac 1140
gcctaacggt agcataatgt aggtgtgtta taactaaaaa taaaaagaat cctacactta 1200
cggacaccta cgatatgtgt taagcactgt taaaatgcta tagttctatt ataaggaaca 1260
aaaaagatga atatgcaaga aattaataat attgttataa attaccagaa gataagtgtt 1320
aactgtactt catagagtct agattatcct aataatactt agataataat cagttttaag 1380
<210>520
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>520
cttgcctaca atagagttga taacaggttt tg 32
<210>521
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>521
gcttaacaca tatcgtaggt gtccgtaagt g 31
<210>522
<211>993
<212>DNA
<213>Diabrotica virgifera
<400>522
cttgcctaca atagagttga taacaggttt tgtttcacat ctctatactt atgcctgtaa 60
actgtagaat ctgttccgaa tgtcagcatt aagttacaca ttaactgccg atatctgttc 120
tttcttaaat aattgccaga aaatttcgtc taatcttcaa cgccataaat gcaatgtaaa 180
aattaatctt agtatacttg tgagtgcaga aggtgtgcta ttgccttttt aaacacatgg 240
catacttaca ttatattatc gttaaatgta ttcctatcca gacctcgttc caacatattg 300
cggctaggag cagaagaata agacagctga caagctaacc tactgacagt tgacattgac 360
attattatta tgaatgacac aaaatgtatt taagttcagt catcattttt atataaaatt 420
cacatcttat tgctaaatat tattttccag ttatttgatt ataaagatca gtgcaacgta 480
gtagcctata taaatattct aaatctactc acagccaaga agaaacaggc taaacccgct 540
accttattcg gaaagttggt cacgtgatga ttatgaattt gactcttttt attagctgtg 600
aatatgtatt tagtaataaa atatacttta tatcaaaacg gtaactttgc ttcacaatag 660
ggctatttat tgcatcattg ccaccatttt tctcgcacac ttgacatatg acgtgcaata 720
tgcgtcatac gtctttgata tataattggt atataccaat gacgtattac gtatatattg 780
tacgtcatat gtcaatagcc atctggaaca tgcgcatatc gtaatatttc actattatct 840
caactgtcac ttacctctgc aaacaggtat tcaaatgcag gtctggaaac tggctttggt 900
taggattacg cctaacggtg gcataatgta ggtgtgttat aactaaaaat aaaaagaatc 960
ctacacttac ggacacctac gatatgtgta agc 993
<210>523
<211>1253
<212>DNA
<213>Diabrotica virgifera
<400>523
cgtccgtctt catcttctaa tctagaacaa tatgttacaa gcctgttcaa tgcagaagga 60
tggagaaagt attctaactt attaggccta gccctggatt ggttaggatc tttgtctgta 120
tcgtcaacca atacagatca atttgaatat aaactttcaa atttgataca taaattaaga 180
gtcattacct atgcttgtaa ttaggaatta ttgtactctc aaaataatta atattaaatc 240
cagtagtgat tgatcatatt ggaaggtaaa gtacaggaca aaagattagt aagaagacgc 300
tcgaactcgt ggctgaagga cctgacaaaa cggtttgacc gctcatccgc agaaattttt 360
cttgcagcag ttttcaaagc tacagttgcc atttggatcg ccaatctttg aaaggagacg 420
gcgcaataag aagaaatgat tgatataacc tcaacaaaca gtgacttact ttactttcat 480
tatcaacaaa acaaatgttt tgtagagaaa gcaaactagt gctgctgcta gtggtgaatt 540
aatatactaa tgattaaagc cactttcagt ctgaatagta ctatgttaag ggttccattt 600
acgttgagat aggtatcgat acatgtatcg cgacaagttg cgatacacgt atcgtgagat 660
ttgtgtctgt ttcacgacag agatgcatgc gacgatagag ttgtagacga cgaagattga 720
gagttgtgat actgatacag cgatactgag acagccaaat acacgatgag atttgtatca 780
cgatactggt acttgcgaca tatatcttaa aattctaaaa tttttaatct ttctacagaa 840
gtatcttata attagaaatt gtttataata taaatgaaaa atttatttaa ctttactcta 900
gattatttaa taaaacaatt ctagtttaat tgtattaata ttattatatt tacaataaaa 960
ccaagtttaa gaatattctc atgtataata aatgaacttc aaaaacgaca gacactatct 1020
tgacacatct tgtaaataat cacatgtgtt aaatttttgt tataaaatat tttatatgta 1080
taatgtttac ttttatttaa tacgtttgtt taattgttgg gacatttgta atactgtagc 1140
aaaaaccgaa aatattattt atttgcgatt gcaatgacat gatgttattt catttaaatg 1200
taagattatg tgtgatcttt agcgtaacat gaaataaagt tttataatat tgg 1253
<210>524
<211>22
<212>DNA
<213>Diabrotica virgifera
<400>524
gacgctcgaa ctcgtggctg aa 22
<210>525
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>525
gctacagtat tacaaatgtc ccaacaatta aac 33
<210>526
<211>845
<212>DNA
<213>Diabrotica virgifera
<400>526
gacgctcgaa ctcgtggctg aaggacctga caaaacggtt tgaccgctca tccgcagaaa 60
tttttcttgc agcagttttc aaagctacag ttgccatttg gatcgccaat ctttgaaagg 120
agacggcgca ataagaagaa atgattgata taacctcaac aaacagtgac ttactttact 180
ttcattatca acaaaacaaa tgttttgtag agaaagcaaa ctagtgctgc tgctagtggt 240
gaattaatat actaatgatt aaagccactt ccagtctgaa tagtactatg ttaagggttc 300
catttacgtt gagataggta tcgatacatg tatcgcgaca agttgcgata cacgtatcgt 360
gagatttgtg tctgtttcac gacagagatg catgcgacga tagagttgta gacgacgaag 420
attgagagtt gtgatactga tacagcgata ctgagacagc caaatacacg atgagatttg 480
tatcacgata ctggtacttg cgacatatat cttaaaattc taaaattttt aatctttcta 540
cagaagtatc ttataattag aaattgttta taatataaat gaaaaattta tttaacttta 600
ctctagatta tttaataaaa caattctagt ttaattgtat taatattatt atatttacaa 660
taaaaccaag tttaagaata ttctcatgta taataaatga acttcaaaaa cgacagacac 720
tatcttgaca catcttgtaa ataatcacat gtgttaaatt tttggtaaaa atattttata 780
tgtataatgt ttacttttat ttaatacgtt tggttaattg gttgggacat ttgtaatact 840
gtagc 845
<210>527
<211>1205
<212>DNA
<213>Diabrotica virgifera
<400>527
attgactttt actgctgtct attactgtag cggagctatt gagctttacc ttactaatca 60
atcaccctgt atacctagat agacttttag tatagaaata taaaaaatat gcaaaatgca 120
tatgttatta acttctgtaa tcctgaattt cctaaaaaat aattaaatgt tgaccttacg 180
aattataccg ttacgaatat gtagttacga actctcgccg ttacgaattg tccgttacca 240
tttgtcgggt tacgaactgt cgcgttacga gatgtcatgg aaccataata acacacgcaa 300
ggataaaaag atacaaggat aagataacag attgtacgtg gccgacatta tcagttatgt 360
ttggagataa aatggttccg gttcgttaga atttaacaga aatattcaag tgttcaaggt 420
tagaaaacta aactgtttga ttaaaaaaaa ttttttttca ttaatttcta agtaaaaata 480
ccattttatg ttcaaagagc cgatattgta gcccccttaa taattatttt tatgtttgtc 540
ccttgtccag tgtgtgttat ctatttgtat tatttttaat taaatgtctg acattccggg 600
atttgctgga taacttcctt ttttgacgga atgccccctg atgatgctat gagagcgaaa 660
ctacttgggc aaaatttaat aaataactgc tcgatatctg cgttttattt gtaaaattca 720
tatattcgag cattgaacta tatattattg aattgtaata tagttaaaag gcaattaaga 780
taaattttta cagagtttat cgtgttcttc tatgattatt aaataattct agtttatttg 840
ttatctcatt actagatcta gtaagagata acccatgaat tttttaaaat gtttatccaa 900
ttctgatata tctgttaagt acataataat gaacctatta aataagtcgc agattctaca 960
tagtaaaaaa aacttgtttc aataaatttg aaagttcaaa acgctttatc cagaaagttt 1020
gtaaatatat caaaaatatt atcagtagta attgcacaag agctctaaaa ttattgaatt 1080
tttcccgagt gacactttga cagttttaat ttcacgagcc gaagtgtcac gagggcaaaa 1140
tactatatta attttagaga tcgagtgcaa tttgttgcga ttatttcatg aataaaactg 1200
ttcaa 1205
<210>528
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>528
gctgtctatt actgtagcgg agctattgag c 31
<210>529
<211>36
<212>DNA
<213>Diabrotica virgifera
<400>529
ctatgtagaa tctgcgactt atttaatagg ttcatt 36
<210>530
<211>947
<212>DNA
<213>Diabrotica virgifera
<400>530
gctgtctatt actgtagcgg agctattgag ctttacctta ctaatcaatc accctgtata 60
cctagataga cttttagtat agaaatataa aaaatatgca aaatgcatat gttattaact 120
tctgtaatcc tgaatttcct aaaaaataat taaatgttga ccttacgaat tataccgtta 180
cgaatatgta gttacgaact ctcgccgtta cgaattgtcc gttaccattt gtcgggttac 240
gaactgtcgc gttacgagat gtcatggaac cataataaca cacgcaagga taaaaagata 300
caaggataag ataacagatt gtacgtggcc gacattatca gttatgtttg gagataaaat 360
ggttccggtt cgttagaatt taacagaaat attcaagtgt tcaaggttag aaaactaaac 420
tgtttgatta aaaaaaattt ttttcattaa tttctaagta aaaataccat tttatgttca 480
aagagccgat attgtagccc ccttaataat tatttttatg tttgtccctt gtccagtgtg 540
tgttatctat ttgtattatt tttaattaaa tgtctgacat tccgggattt gctggataac 600
ttcctttttt gacggaatgc cccctgatga tgctatgaga gcgaaactac ttgggcaaaa 660
tttaataaat aactgctcga tatctgcgtt ttatttgtaa aattcatata ttcgagcatt 720
gaactatata ttattgaatt gtaatatagt taaaaggcaa ttaagataaa tttttacaga 780
gtttatcgtg ttcttctatg attattaaat aattctagtt tatttgttat ctcattacta 840
gatctagtaa gagataaccc atgaattttt taaaatgttt atccaattct gatatatctg 900
ttaagtacat aataatgaac ctattaaata agtcgcagat tctactg 947
<210>531
<211>1194
<212>DNA
<213>Diabrotica virgifera
<400>531
aaaacgtaag tctttctttc ggccacggga acggaacagg ttagtccgta acaacagaga 60
aaaagtttcg ttaaatcact tcgtatcaat cttcggcatc atcttaaaat tttcttcaga 120
atcagtagga aaactcaaag taggttattc tcatcggtta cattcgttct tcggggttta 180
tagaccgagc tcggaattat ttcttcctcg gcctcgcaac ttccatcgag acgtcaaagg 240
cagcgtgtaa actatcaatg agtagaagac agttcataac ggtcttctac ccgacagtta 300
tgacctatgt tgcatagtct tcgatgtctg tcacagttga aaggcacaag aaagaaatag 360
atccacatca cgaccaatta taaagcccaa aaagaattta ccattacaga acaccagccg 420
tgaaggctta cattcctcaa aatcatgtca gtcatatgtg gggatggtga catggttata 480
gtcatggggt tttatggtat tatttctata catggttttg aataatgtaa gtctcgtcat 540
taaatatgta tctgacaata catttgaatt taaatactcg agattaaatt ataagcaatg 600
atcagaagaa atgagatact tagtgccttg gatatgtgtt aaccattgct tcgctttttt 660
aaagacaaat gttcactgca caatgtaaaa cgactagtaa ctagtaaaac aaaaattccc 720
tggtttgttc ttgcagacta ttaaaaagaa gtagttttta atagctgatg gacaaaacag 780
gcacaaatat tgacaaattg cacagtagtg aggctccaaa agccttagta attaggaaca 840
aaatctttaa atagctcttt aataaaatgt tttatactta catgaaaagg ttgcagccac 900
ccatccttgg aatagttgat gaaagagaaa gaatttaatg aaggtgaaaa tgaaacatga 960
tatgaaccag atgagatgtg ataggaatgt ggatttggaa acgaaggact atggatatta 1020
aaaaaataag gtgatggcaa aattcacctt aaaaaggcaa cttcctgaag ggaagttact 1080
taacccacct ccacccagtc cgaatatttc ttgaggagaa atattcggcc tacttactaa 1140
aatatattgg gggatcaaga caaattatga tccctgcatt tggcttaaat cttg 1194
<210>532
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>532
agtccgtaac aacagagaaa aagtttcgt 29
<210>533
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>533
gaggtgggtt aagtaacttc ccttcagg 28
<210>534
<211>1031
<212>DNA
<213>Diabrotica virgifera
<400>534
agtccgtaac aacagagaaa aagtttcgtt aaatatttgt ataattttcg gcatatctta 60
aaatttcttc agatcagtgg aaaactaaag tggttatctc atggttacat tgttcttggg 120
gtttatagac cgagctggaa ttatttcttc ctggcctgca acttccatga gacgtcaaag 180
gcagcgtgga aactatcaat gagtaggaga cagttcataa cggtcttcta cccgacagtt 240
atgacctatg ttgcatagtc ttcgatgtct gtcacagttg aaaggcacaa gaaagaaata 300
gatccacatc acgaccaatt ataaagccca aaaagaattt accattacag aacaccagcc 360
gtgaaggctt acattcctca aaatcatgtc agtcatatgt ggggatggtg acatggttat 420
agtcatgggg ttttatggta ttatttctat acatggtttt gaataatgta agtctcgtca 480
ttaaatatgt atctgacaat acatttgaat ttaaatactc gagattaaat tataagcaat 540
gatcagaaga aatgagatac ttagtgcctt ggatatgtgt taaccattgc ttcgcttttt 600
taaagacaaa tgttcactgc acaatgtaaa acgactagta actagtaaaa caaaaattcc 660
ctggtttgtt cttgcagact attaaaaaga agtagttttt aatagctgat ggacaaaaca 720
ggcacaaata tcgacaaatt gcacagtagt gaggctccaa aagccttagt aattaggaac 780
aaaatcttta aatagctctt taataaaatg ttttatactt acatgaaaag gttgcagcca 840
cccatccttg gaatagttga tgaaagagaa agaatttaat gaaggtgaaa atgaaacatg 900
atatgaacca gatgagatgt gataggaatg tggatttgga aacgaaggac tatggatatt 960
aaaaaataag gtgatggcaa aattcacctt aaaaaggcaa cttcctgaag ggaagttact 1020
taacccacct c 1031
<210>535
<211>1024
<212>DNA
<213>Diabrotica virgifera
<400>535
cggacgcgtg ggctttttgg acaaagtatt tggtggtttc ttagtcctcg aaatctctag 60
atttggattg atttaattta cattattgtc attgtcaaaa agtacatagg gcattgcaac 120
atgctgtcaa atctaaatca atatgggggc tggtaggcaa acctaaatgt cattctatca 180
gttttcaatg tgttttagat cattttagtt gcgtttcttt gtaattttgt tttgtacaat 240
gattaattaa cattttcact ggaagaaata atgtaaaaag ataatatgcc tgatttatgt 300
tgtgttttga agtgtataat gcgaagtcat catgataaaa agttcagttt tattggttgc 360
catcagtgct acattttaag cataaacaac taaataaagt tatcatctta gggacaaaaa 420
caatggttaa atgctataaa acgtcctata aaaatgctaa ataactatat ccgtgttact 480
caagcttgga aaactgtctc caccgtaggc taacaccgac cacttgagga aaatggacct 540
atattgtaca aagactgtgc caattacaga gatccttcat tatggatttc ttcaagattt 600
gtaaatgtcc tctgtaataa ctattattca ccataggtca gtaattattg atttctaacc 660
ttcaaaatag tcgagaagtg acctattatt tactttacta tctccactgt ctaggaaagt 720
acttatcggc tatcatatgt cactttcctt gccgtcaaat gtcacttgtc ataaatgtca 780
aaataattta tcaaattata ataaaagtta atgtagatat tattatttga aacttaatta 840
ttaatgatat attatgacta aaatagtata catatgtata ctcgggagaa tgtatttcag 900
cctcgcgtct gtagcttact ttggtaattc ctgaacaagc taatttgaca atcaattctc 960
ctgggcaata tgtaatatac tatgactctt agtgatatcg acttagtcgt aaaccactgg 1020
ttct 1024
<210>536
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>536
gacaaagtat ttggtggttt cttagtcctc g 31
<210>537
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>537
gttcaggaat taccaaagta agctacagac g 31
<210>538
<211>917
<212>DNA
<213>Diabrotica virgifera
<400>538
gacaaagtat ttggtggttt cttagtcctc gaaatctcta gatttggatt gatttaattt 60
acattattgt cattgtcaaa aagtacatag ggcattgcaa catgctgtca aatctaaatc 120
aatatggggg ctggtaggca aacctaaatg tcattctatc agttttcaat gtgttttaga 180
tcattttagt tgcgtttctt tgtaattttg ttttgtacaa tgattaatta acattttcac 240
tggaagaaat aatgtaaaaa gataatatgc ctgatttatg ttgtgttttg aagtgtataa 300
tgcgaagtca tcatgataaa aagttcagtt ttattggttg ccatcagtgc tacattttaa 360
gcataaacaa ctaaataagg ttatcatctt agggacaaaa acaatggtta aatgctataa 420
aacgtcctat aaaaatgcta aataactata tccgtgttac ttaagcttgg aaaactgtct 480
ccaccgtagg ctaacaccga ccactggagg aaaatggacc tatattgtac aaagactgtg 540
ccaattacag agatccttca ttatggattt cttcaagatt tgtaaatgtc ctctgtaata 600
actattattc accataggtc agtaattatt gatttctaac cttcaaaata gtcgagaagt 660
gacctattat ttactttact atctccactg tctaggaaag tacttatcgg ctatcatatg 720
tcactttcct tgccgtcaaa tgtcacttgt cataaatgtc aaaataattt atcaaattat 780
aataaaagtt aatgtagata ttattatttg aaacttaatt attaatgata tattatgact 840
aaaatagtat acatatgtat actcgggaga atgtatttca gcctcgcgtc tgtagcttac 900
tttggtaatt cctgaac 917
<210>539
<211>1017
<212>DNA
<213>Diabrotica virgifera
<400>539
tataaaatct ggcaactgtg cagtgtagta caaccctcgc cactcacaga cagcggacgg 60
gatgatcgca tcgcatcgtg ccaaaagctt agatggctca gctgaaaaga gaaagatttt 120
acgggcattc tatgtaagtg acagagatag agctatattg cacttttaat acacgtttaa 180
atgaaactat tcgtgcctgg cccgacaagg caggaagatc taatattttt tactatgctc 240
atcatagtga atagtggatc gtagatcaga tccaaaaagc ttctcgtaca gggtagtacc 300
tacattatct tttcgagttt ttttacgcgc tcgctcgctc gtttttgtat ttataattat 360
tacattttta atgattaaac tttttattct aaactattat atttttaagt aatttaaaat 420
ttttaataaa acccgagtta aattcagctt atcgtgatag tctaattaaa cacaatgaac 480
aagaagtgga ttaagaatcg atatgttttg aatcaaatta aaaattatat ctaagtatat 540
ggttttgtgg agctttcgag ttagttttga gaaatcacga cgaaaaggaa aattcagaaa 600
atataggcat ctttatggaa ctgttcaatg ttagccgaat tagacaacga cttcggttaa 660
tattcaaagt tccaaatctt taaaagcatg tacctcaaaa caacacaaaa tgaactcctt 720
cagtgcatct tagatgttta tcacgaggaa ataaggaaag aaattgaaaa ttatctttgt 780
gttgcagtga ttgccgatga aacgacagac gtcgcgtcgc tggtgaattt cagttagtta 840
tagttttccg atatttgtgt aaagggcgat aagttgagag attttggaga ttttacttgt 900
tggacggaca tgatgtcaaa tcaatcactg aatgcatttt aaatgtttaa atttcttgac 960
accccagaaa tggtatatac ctacataatg taaaaatatc cgtacctatt tttttta 1017
<210>540
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>540
caactgtgca gtgtagtaca accctcg 27
<210>541
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>541
cagtgattga tttgacatca tgtccgt 27
<210>542
<211>922
<212>DNA
<213>Diabrotica virgifera
<400>542
caactgtgca gtgtagtaca accctcgcca ctcacagaca gcggacggga tgatcgcatc 60
gcatcgtgcc aaaagcttag atggctcagc tgaaaagaga aagattttac gggcattcta 120
tgtaagtgac agagatagag ctatattgca cttttaatac acgtttaaat gaaactattc 180
gtgcctggct cgacaaggca ggaagatcta atatttttta ctatgctcat catagtgaat 240
agtggatcgc agatcagatc caaaaagctt ctcgtacagg gtagtaccta cattatcttt 300
tcgagttttt ttacgcgctc gctcgctcgt ttttgtattt ataattatta catttttaat 360
gattaaactt tttattctaa actattatat ttttaagtaa tttaaaattt tttaattttt 420
aataaaaccc gagttaaatt cagcttatcg tgatagtcta attaaacaca atgaacaaga 480
agtggattaa gaatcgatat gttttgaatc aaattaaaaa ttatatctat atggttttgt 540
gaagctttcg agttagtttt gagaaatcac gacgaaaagg aaaattcaga aaatagaggc 600
atctttatgg aactgttcaa tgttagccga attagacaac gacttcggtt catattcaaa 660
gttccaaatc tttaaaagca tgtacctcaa aacaacacaa aatgaactcc ttcagtgcat 720
cttaaatgtt tatcacgagg aaataaggaa agaaattgaa aattatcttt gtgttgcagt 780
gattgccgat gaaacgacag acgtcgcgtc gctggtgaat ttcagttagt tatagttttc 840
cgatatttgt gtaaagggcg ataagttgag agattttgga gattttactt gttggacgga 900
catgatgtca aatcaatcac tg 922
<210>543
<211>999
<212>DNA
<213>Diabrotica virgifera
<400>543
catacatacc acagcgaagc gtttcctgaa cctcgatgtg cgaggtttgt gtttaattta 60
tcctttggcg ctgtagaagt ttattacacg catgcattaa gaaaagtacc tccaattaag 120
attaagaatt taagcaagtt ttaagaattt aggcaagtta tctccacagc actaaagaaa 180
ttaagaaaaa taaagtcaga gtgtttgtct caattgtatc aagtttagaa gagcgaggat 240
aatggatctc gtcatgtcct tttataccca ctcaagactg tacaaaaaga caagcactct 300
agacaatcaa ttcaagacaa gtactcatct taacgcagtc aagaagtttg tttgtagata 360
taagtacatt ttttttgtta agtttccatt ctaaatggtg ggccagtttt gtcaagttta 420
gaaacaagat ttgggcaaga ggttcgtaag agggaagaat agaagaaagc aactaataca 480
gtttgtagca ttttagaaaa aaaaattaga agataacttg aaaacggaga ctaaacttta 540
atgaactatc aagtttatta tcattaacac cttttattct cggtaacaag tatgtaaaag 600
caaatattat ttatggagta gaaaaaataa tgtttgttcc acttctgtca agaagacaga 660
atgaaattca agctggttaa attaaataaa agattctctt gtctaatgaa ttgcattgaa 720
gatatcttca cctgattgtc acatgcctgt cgaaaatatc tagctatatc agaataataa 780
ggactttcat aaattacgaa aaattaacga agcaaagaaa actgtttgaa aatcaattaa 840
gaaacattcg gaaaggccaa tattttgttt ttttgtgttt acataaaatc taaagatata 900
taaatattac atttatatgt acggatttaa gaaaatgaaa cctggtattc aatatgtaat 960
tccgaaaaat atcacataga aataaaattt attatacat 999
<210>544
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>544
catacatacc acagcgaagc gtttcc 26
<210>545
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>545
cgacaggcat gtgacaatca ggtg 24
<210>546
<211>508
<212>DNA
<213>Diabrotica virgifera
<400>546
catacatacc acagcgaagc gtttcctgaa cctcgatgtg cgaggtttgt gtttaattta 60
tcctttggcg ctgtagaagt ttattacacg catgcattaa gaaaagtacc tccaattaag 120
attaagaatt taagcaagtt ttaagaattt agggccagtt ttgtcaagtt tagaaacaag 180
atttgggcaa gaggttcgta agagggaaga atagaagaaa gcaactaata cagtttgtag 240
cattttagaa aaaaaaatta gaagataact tgaaaacgga gactaaactt taatggaaga 300
actatcaagt ttattatcat taacaccttt tattctcggt aacaagtatg taaaagcaaa 360
tattatttat ggagtagaaa aaataatgtt tgttccactt ctgtcaagaa gacagaatga 420
aattcaagcc ggttaaatta aataaaagat tctcttgtct aatgaattgc attgaagata 480
tcttcacctg attgtcacat gcctgtcg 508
<210>547
<211>969
<212>DNA
<213>Diabrotica virgifera
<400>547
ttgactacaa atgaaaaaaa actcttatta actactttac tttcagattg gaaaatactg 60
acaaaataca attaaaacat tgtattcttt caaaatggtt accaatctag aggtaaaaaa 120
gtgcataata atagtttatt ttaaaatttg cagtttattt tcaagagatt ttcaaaaaat 180
gattttttct ttactgtaca ctcctgtatt agaagtagaa atcagcgagt gttaattact 240
tcgttctaaa taattatttt tgttgaagat ttaattctta ctgattctat tgtctatctc 300
aaataatatc tgtttaatga agtattatga atagttgtac ttttttagtt aatatttaat 360
aacttcacta tccaatcaac tatataattc aagaacctta atgtgtccct aatatgtatg 420
tccatgaatc aaatgtgatt caaggataga agctattcta aaattaaaat agtattggac 480
atagactcct gattatgtta acattgggtc agtggagtta tcaatatcac taagaaatgg 540
cacatttaga aaaaaactaa aggtaattag ttttcaaatc gtacaattat tgttctcaaa 600
acataaaaca gcattctaat attctttacc tattaatact ctattctgtt ttcaattgtt 660
ttaaatccat aaataaacag ctgtcaaaca atcataacat tctacaacca agaaaccatg 720
aaatgtccat gccacattaa tattgaaaca aattttttgg tttatgttac aacaaacagt 780
cattttagta tattaaatca cctaaagtat atgacttaat atatcaaaac aacaatttgt 840
ctgaggacat gtgaatatcc tagaagcaac tttttaaacc aaacaaatta ataagattaa 900
ctatataaat gcagcattta tatttgatgg tttctagtat caatgacatc caaaatacaa 960
acaagtgtt 969
<210>548
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>548
gtacactcct gtattagaag tagaaatcag cgag 34
<210>549
<211>37
<212>DNA
<213>Diabrotica virgifera
<400>549
gatgtcattg atactagaaa ccatcaaata taaatgc 37
<210>550
<211>754
<212>DNA
<213>Diabrotica virgifera
<400>550
gtacactcct gtattagaag tagaaatcag cgagtgttaa ttacttcgtt ctaaataatt 60
atttttgttg aagatttaat tcttactgat tctattgtct atctcaaata atatctgttt 120
aatgaagtat tatgaatagt tgtacttttt tagttaatat ttaataactt cactatccaa 180
tcaactatat aattcaagaa ccttaatgtg tccctaatat gtatgtccat gaatcaaatg 240
tgattcaagg atagaagcta ttctaaaatt aaaatagtat tggacataga ctcctgatta 300
tgttaacatt gggtcagtgg agttatcaat atcactaaga aatggcacat ttagaaaaaa 360
actaaaggta attagttttc aaatcgtaca attattgttc tcaaaacata agacagcatt 420
ctaatattct ttacctatta atactctatt ctgttttcaa ttgttttaaa tccataaata 480
aacagctgtc aaacaatcat aacattctac aaccaagaaa ccatgaaatg tccatgccac 540
attaatattg aaacaaattt tttggtttat gttacaacaa acagtcattt tagtatatta 600
aatcacctaa agtatatgac ttaatatatc aaaacaacaa tttgtctgag gacatgtgaa 660
tatcctagaa gcaacttttt aaaccaaaca aattaataag attaactata taaatgcagc 720
atttatattt gatggtttct agtatcatga catc 754
<210>551
<211>926
<212>DNA
<213>Diabrofica virgifera
<400>551
gtaagatata agagaataac acaatttgat aatatatttc ttcggttacc attcgtactt 60
aaatatacac tcgttctaat attatttttc acctaacctt tactaacttc tatatctaga 120
tccttatccg tcaaatacgg caacttaacc ttttcgtgga gggaaataac cgtagtcgct 180
aacacttttc ggtgcccggt agatggttaa atacaaagag gactcgttta ggtaccgtta 240
attatcgtaa ataccagtaa atgattcatt taggattaaa attacttgct aaagtaagct 300
gagtaagttt tatcggtgat aatattacag ccttctagtt tgtcaacgat acgccatcta 360
ggttttcaaa gatatattcc aggacccggt ataaaaccgt gggagaaata atacccacct 420
tgatgtattc ctcgatttac ggtgttttgt ctgcatctat ccagacttca tccaaatacc 480
atcactttca tgtatgtact tgataaggct cgaatgcctg gagtcaaatc ttgcttaatc 540
cagggcctta caaattgacc aaatttccaa gacttttcgg ttctacaaat ttaatctaca 600
caattaagtg tatggataca ttgtattctg cgtaatattt ctttattaca gttcttattg 660
cataaaggtg gttagtaata tttaacgcgt ttcaaaaacc cgcctgttcg acagtgaaga 720
gtgatcaatt caaatagcac agacctataa gtgatgtatt ggcaaccgta aactatattt 780
gttataatca aatcaataat tttataagct aaatcagggt agttctcgga agttggctgt 840
ataccattta gttaaaaaac tttcaacatc aaagtaaaaa aacttctgtt gtaatttgtg 900
aagtattaaa ttaaaaatcc aaacgg 926
<210>552
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>552
cttcggttac cattcgtact taaatataca ctcg 34
<210>553
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>553
ggtatacagc caacttccga gaactacc 28
<210>554
<211>804
<212>DNA
<213>Diabrotica virgifera
<400>554
cttcggttac cattcgtact taaatataca ctgttctaat attatttttc acctaacctt 60
tactaacttc tatatctaga tccttatctg tcaaatatgg caacttaacc ttttcgtgga 120
gggaaataac cgtagtcgct aacacttttg gtgcccggta gatggttaaa tacaaagagg 180
acttgtttag gtaccgttaa ttatcgtaaa taccagtaaa tgattcattt aggattaaaa 240
ttacttgcta aagtaagctg agtaagtttt atcggtgata atattacagc cttctagttt 300
gtcaacgata cgccatctag gttttcaaag atatattcca ggacccggta taaaaccgtg 360
ggagaaataa tacccacctt gatgtattcc tcgatttacg gtgttttgtc tgcatctatc 420
cagacttcat ccaaatacca tcactttcat gtatgtactt gataaggctc gaatgcctgg 480
agtcaaatct tgcttaatcc agggccttac aaattgacca aatttccaag acttttcggt 540
tctacaaatt taatctacac aattaagtgt atggatacat tgtattctgc gtaatatttc 600
tttattacag ttcttattgc ataaaggtgg ttagtaatat ttaacgcgtt tcaaaaaccc 660
gcctgttcga cagtgaagag tgatcaattc aaatagcaca gacctataag tgaagtattg 720
gcaaccgtaa actatatttg ttataatcaa atcaataatt ttataagcta aattagggta 780
gttctcggaa gttggctgta tacc 804
<210>555
<211>904
<212>DNA
<213>Diabrotica virgifera
<400>555
gcaaaagtta aacttttgaa ctattttgat ctatcgtcaa tgtttgcaga aaatatttga 60
ttaaatacaa ttgaaaaaac aatggaacat catagaaact tgatgaagac ttacaagaac 120
aacaagtact cggtcaaata aacattttgg aaagtttacc tttttaaaat agttggactt 180
tttttctgaa ctcctgccag gctctcgata atcttagaat aatgggttgt tttatgtata 240
cttgtttatt ggctgaggta tttaatatct agattaagat tccaatcaaa gtttttggcc 300
taggtgaact gtagttttat agaaaaatct caaacgcatt tagttgcgtt tataaatgtc 360
tactacctaa ttgtatagaa cgcacaggtt atattttaca gatttctcga ctttttgact 420
tctatccgtg atgatttgac gtgagaggcg tccaaagtct cttttgaaaa tttgtaaatg 480
tgttaaggtg ctttgagttc gaaagttagc tgtcttttcg aagcattaat ttgtcaaaaa 540
catagttata gtataaacca ataagcgctt acctcaggaa tatttgtctt gtagaggtaa 600
aatgaagagt tatattttta ttgttcgtca gagataaaag attttgtttt gtgagaatat 660
cgctaaatat tatatttttg atacattaat aaatatacag attgggcaag ctagtttttg 720
aataacatat tgacatttat ttatcggatt cactgtgttc agaagagcct ttggaaattt 780
agattagggt gcaagtatat taaagatgat aagagattga tacatatcat actatacata 840
tcatattaac tatatcgatg ttattctata ttataaaatt aatatttaat aaatgtctac 900
cagc 904
<210>556
<211>36
<212>DNA
<213>Diabrotica virgifera
<400>556
catagaaact tgatgaagac ttacaagaac aacaag 36
<210>557
<211>36
<212>DNA
<213>Diabrotica virgifera
<400>557
tctcttatca tctttaatat acttgcaccc taatct 36
<210>558
<211>725
<212>DNA
<213>Diabrotica virgifera
<400>558
catagaaact tgatgaagac ttacaagaac aacaagtgct ggtcaaataa acattttgga 60
aagtttacct ttttaaaata gttggacttt ttttctgaac tcctgccagg ctctcgataa 120
tcttagaata atgggttgtt ttatgtatac ttgtttattg gctgaggtat ttaatatcta 180
gattaagatt ccaatcaaag tttttggcct aggtgaactg tagttttata gaaaaatctc 240
aaacgcattt agttgcgttt ataaatgtct actacctaat tgtatagaac gcacaggtta 300
tattttacag atttctcgac tttttgactt ctatctgtga tgatttgacg tgagaggcgt 360
ccaaagtctc ttttgaaaat ttgtaaatgt gttaaggtgc tttgagttcg aaagttagct 420
gtcttttcga agcattaatt tgtcaaaaac atagttatag tataaaccaa taagcgctta 480
cctcaggaat atttgtcttg tagaggtaaa atgaagagtt atatttttat tgttcgtcag 540
agataaaaga ttttgttttg tgagaatatc gctaaatatt atatttttga tacattaata 600
aatatacaga ttgggcaagc tagtttttga ataacatatt gacatttatt tatcggattc 660
actgtgttca gaagagcctt tggaaattta gattagggtg caagtatatt aaagatgata 720
agaga 725
<210>559
<211>874
<212>DNA
<213>Diabrotica virgifera
<400>559
taataaataa atctacttta aaatgtacat ataatatatt atatctgaat tgtcaatatg 60
aatgagtgag ataaaattaa attattagag aaaaattttt taccaagcat caaaaacaaa 120
atttgattaa attattaaag ttttgtattt tgataatgat ttccaagttg gaaattgaaa 180
cgtcaaataa atttaattta aaacttaaac tgtggcttga tcccctgtca caagaaaaaa 240
aaacacacca cgtctacgtc tatgcagata aggacacctg ttaacgagta aaatatttct 300
tggattctca ccctgccttg gacgtaaata tatagaccag cgaagtattg ataaggttac 360
caatgattca cagtgttcaa ggaatttgtt caacttagcc gcccgtaaat atgacccata 420
gaccggaggt atattgttac cgaggcaaat tttatgaaat catcttcctt tttcccttat 480
gcacattggc aaggcatacc caataaaaat gaccccggta taaatttagt tttaaaattt 540
aacattgttg ctgttctcag ttcaatttgt agatgagtcg ccttcaatta aaaatggttg 600
gagagagaac aaatgattga gtaaattagt aaaaaaacat taattagtag tcatcttaat 660
tataaatcaa attaataata aaaatatccc aactaaaata ttttactaaa cgtcataccg 720
ttggtcatac taaacgtcat acatatttat acctaattat gacagaagtc aacaagcact 780
taagataacg tctaaatgtg agaaactact atgtaatgta aatgtatagg tgtctaacga 840
caattttcca cctctacaag tttgatctct tttt 874
<210>560
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>560
tgtggcttga tcccctgtca caag 24
<210>561
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>561
gagatcaaac ttgtagaggt ggaaaattgt cg 32
<210>562
<211>658
<212>DNA
<213>Diabrotica virgifera
<400>562
tgtggcttga tcccctgtca caagaaaaaa aaacacacca cgtctacgtc tatgcagata 60
aggacacctg ttaacgagta aaatatttct tggattctca ccctgccttg gacgtaaata 120
tatagaccag cgaagtattg ataaggttac caatgattca cagtgttcaa ggaatttgtt 180
caacttagcc gcccgtaaat atgacccata gaccggaggt atattgttac cgaggcaaat 240
tttatgaaat catcttcctc tttcccttat gcacattggc aaggcatacc caataaaaat 300
gaccccggta taaatttagt tttaaaattt aacattgttg ctgttctcag ttcaatttgt 360
agatgagtcg ccttcattaa aaatggttgg agagagaaca aatgattgag taaattagta 420
aaaaaacatt aattagtagt catcttaatt ataaatcaaa ctaataataa aaatatccca 480
actaaaatat tttactaaac gtcataccgt tggtcatact aaacgtcata catatttata 540
cctaattatg acagaagtca acaagcactt aagataacgt ctaaatgtga gaaactacta 600
tgtaatgtaa atttataggt gtctaacgac aattttccac ctctacaagt ttgatctc 658
<210>563
<211>849
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(765)
<223〉n=a, c, g or t/u
<400>563
cttaaaatgt ataaatttac ctgattataa aacctttttt tatttcttaa caaataaaca 60
ttcagtggac caaaggatac atatcgatac ctcagagcaa cagtgagata agtggaaaat 120
ttcagttttt ttaagtctgc ttatttacat agaatgtgtt gccagtgtgg agtgcagtgc 180
attctatgta aatggcgtac ttaaacaagg ttgaggtttt ggacttctca ctgttgcttt 240
gatgtatcga tataagctac atagtagata catagaggaa atcttgtgct ttattctttt 300
ttagaatttc aatggttaat atattagata ttaaaataat gacccaaaaa atctatatag 360
tgctatctaa atattgctgc tgcaagaatt tttttattag ttctttaacc cagttttatg 420
accttcatgt acatatatcc aaatctatat tgccagggta ttggaaataa taccctggat 480
ttttagcctg aagtatatta ccaatgatgt acacaaacta ctagtctaaa gaaacaccga 540
ctattgaaga atattaagaa gctacaggtt acttttcatt tttccaaaat atcatttgta 600
tttttcagtt ctattctgtc acaactaaat tttattccac tttaccacga gagtaatctg 660
ttttttcgta actaaaagag gatcgatggg tagccaagaa gttgagaaac agtaagattt 720
caaatattgc aaaacgttgc aaatattttt aagaatgtat tttanaatgt taaatggata 780
catgaactaa tcagaaagca gtcttcaaaa aagaaaaagc agtgttaaga cacagtattc 840
gaaaacatc 849
<210>564
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>564
cattcagtgg accaaaggat acatatcg 28
<210>565
<211>35
<212>DNA
<213>Diabrotica virgifera
<400>565
gactgctttc tgattagttc atgtatccat ttaac 35
<210>566
<211>655
<212>DNA
<213>Diabrotica virgifera
<400>566
cattcagtgg accaaggata catatcgata cattctatgt aaatagcgta cttaaacaaa 60
attgaaattt tggacttctc actgttgctt tgatgtatcg atataagcta catagtagat 120
acatagagga aatcttgtgc tttattcttt tttagaattt caatggttaa tatattagat 180
attaaaataa tgacccaaaa aatctatata gtgctatcta aatattgctg ctgcaagaat 240
ttttttatta gttctttaac ccagttttat gaccttcatg tacatatatc ccaaatctat 300
attgccaggg tattggaaat aataccctgg atttttagca tgaagtatat taccaatgat 360
gtacacaaac tactagtcta aagaaacacc gactattgaa gaatattaag aagctacagg 420
ttacttttca tttttccaaa atatcatttg tatttttcag ttctattctg tcacaactaa 480
attttattcc actttaccac gagagtaatc tgttttttcg taactaaaag aggatcgatg 540
ggtagccaag aagttaagaa acagtaagat ttcaaatatt gcaaaacgct gcaaatattt 600
ttaagaatgt attttaaaat gttaaatgga tacatgaact aatcagaaag cagtc 655
<210>567
<211>848
<212>DNA
<213>Diabrotica virgifera
<400>567
cggacgcgtg ggtaatgatc ttaacgttta tagtactata tagagaattg aataaccttt 60
caaatgagcc ggcacacgac atccgttctc atttataaag aaaaaatcga ttacgtcatc 120
acgcccagat ggatcgccgt caccggtgcg atatatgtgt caagggtcat aattggaaag 180
tcgaactttt gtattttaca ttttttttct agttctgtaa ataaggcagt ttgcaggggg 240
gtcaaaatat ggtgaatagc cctgtacatt cattggggcc gaccgatcgg ctctgtcccg 300
tcatgcagct gaccgactgt aataactttt atttatattc aatttggaat gtgtgtactg 360
attttcaacc ttagtaaatg gatttaatta ccttcgtagg aaagcaactt tgataccctc 420
ttagtaacca ctggttctac gtttcgtttg accgaccgca gtatgtttct ctacctacac 480
aatcacagtg atcaattatg aaaagtttag cttttgtgaa ttcacagatt ttttagcgct 540
ttatattgga aaattaacat ttttcaatat aaaccgtcca ctatattaat agatacaaaa 600
ttaggagctg tagcagaaaa gtatctcaac tgactcaatt tattttatta ataagtcctg 660
gtatttatta cgtttgaaaa cggacatttt ggatgctttc tatcttcgat ctttgtaaag 720
aaaccgtgga ataaagtaaa acaatgttaa atattaccta ggtattttaa tgcataaaat 780
tatatactca atgcttgaag gataatataa agaagcattt gttttttttt taatattttt 840
tctcttcg 848
<210>568
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>568
cgattacgtc atcacgccca gatg 24
<210>569
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>569
ctttacaaag atcgaagata gaaagcatcc a 31
<210>570
<211>610
<212>DNA
<213>Diabrotica virgifera
<400>570
cgattacgtc atcacgccca gatggatgcc gtcaccagta cgatatatat gtcagggatc 60
ataattggaa aatcgaacct ttgtattttg catttttttt ctgattctgt aaataaagcg 120
gtttacaagg gggtcaaaat atggtgaatg gccctgtaca ttcattgggg ccgaccgatc 180
ggctctgtcc cgtcatacag ctgaccgact gtaataactt ttatttatat tcgatttaga 240
atgtgtgtac tgattttcaa ccttagtaaa tggatttaat taccttcgta ggaaagcaac 300
tttgttaccc tcttagtaac cactgttcta cgtttcgttt gaccgaccgc agtatgtttc 360
tctacctgca cagtcacagt aatcaattgt gaaaagttta gcttttgtaa attcacagat 420
tttttagcgc tttatattgg aaaattaaca tttttcaata taaaccgtcc actatattaa 480
tagatacaaa attaggagct gtagcagaaa agtatctcaa ctgactcaat ttattttatt 540
aataagtcct ggtatttatt acgtttgaaa acggacattt tggatgcttt ctatcttcga 600
tcttgtaaag 610
<210>571
<211>828
<212>DNA
<213>Diabrotica virgifera
<400>571
gacaataatc gtgtagatgg cgctaagatt ataatagatt atttataatt agatattacg 60
gaacattaaa aaaaacttaa attcagtatt taaaacgtaa gtatatttaa ggtaaaaata 120
tataccacag ctttgaccaa ctaatattgt ttataattaa tgtttttaat tttaatttta 180
aattaatcac tttgacattt atgtcaaatt tccgataaac gtttacaaac ttgtcactac 240
tgcgttcgcg aatttgtaaa tatcccctct acgtacgagc tcacagcgta tacgctgtgt 300
gcttcgctgg tgtcgttcct agcggactac tattcaactt tcaccggtaa tttttaaatt 360
tattatttaa ttgttatcgc ttaatattta caacgcaaaa aagtaattaa attgtaatgg 420
attttttaag attttgctaa tcattttgac gttctattga caaaatatga atttcttact 480
tcggatactt tcacaattat cgtgtagatg gcgctaagat taatggatta atagattaat 540
agaacattaa aaaaacttaa attcagtatt taaaacgtaa gcatatttaa ggtaaaaata 600
tataccacag ctttgactaa ctaatatttt ttataattaa tgtttttaat tttaatttta 660
aattaatcac tttgacattt atgtcaaatt tccggtaaag gtttacagac ttgtcactaa 720
tggcgttcgc gaatttgtaa atatcccctc tacgtacgag ctcacagcgt ataactgaac 780
gacaacgaac gaacgaacac gaacactgaa cacagattca cagatagc 828
<210>572
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>572
cgtttacaaa cttgtcacta ctgcgttcg 29
<210>573
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>573
gctatctg tgaatctgtgtt cagtgttcg 29
<210>574
<211>609
<212>DNA
<213>Diabrotica virgifera
<400>574
cgtttacaaa cttgtcacta ctgcgttcgc gaatttgtaa atatcccctc tacgtacgag 60
ctcacagcgt atacgctgtg tgcttcgctg gtgtcgttcc tagcggacta ctattcaact 120
ttcaccggta atttttaaat ttattattta attgttatcg cttaatattt acaacgcaaa 180
aaagtaatta aattgtaatg gattttttaa gattttgcta atcattttga cgtcctattg 240
acaaaatatg aatttcttac ttcggatact ttcacaatta tcgtgtagat ggcgctaaga 300
ttaatggatt aatagattaa tagaacatta aaaaaactta aattcagtat ttaaaacgta 360
agcatattta aggtaaaaat atataccaca gctttgacta actaatattt tttataatta 420
atgtttttaa ttttaatttt aaattaatca ctttgacatt tatgtcaaat ttccggtaaa 480
ggtttacaga cttgtcacta atggcgttcg cgaatttgta aatatcccct ctacgtacga 540
gctcacagcg tataactgaa cgacaacgaa cgaacgaaca cgaacactga acacagattc 600
acagatagc 609
<210>575
<211>824
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(785)
<223〉n=a, c, g or t/u
<400>575
gcgatgcgat accgacaaag ctccctttga ctcggacgcg ccagaccgac agagaacgga 60
agtagagcga agcgaggcaa agttgcacaa ggtgtccgtc tacactctcg tacttgttga 120
acctcgatcg acttcggcga gagtgtggag ctcacataac attttttcat agagagtaat 180
aatgtaacag tttgtagttt ctaccagttg tgatgtaaca ggcgtaacgc tatgttattt 240
cacaatatgg agaagatcta ctacttcttc atttgtgacg agatctacca gcgaaatttc 300
aaaaattgtc ctcgagatgg acatttcaaa cttttttagg ttctatgatc ttaatttaac 360
ttccatcaac aataagattt actgtttttg attaaatagt taatctagca aagatagacc 420
agcaggtact tccttaaatc tagtaatggt cagcgtttac atagaccaat aatagtttat 480
taagcttttt tcggtcaact ttttaagtct tgtttttaaa ggaatgtttg tataacattt 540
taaacctttg taaaacatgt accattaatg ttgcccttct actcctttat aaaaataatt 600
gttaaaataa cttataaaat taatcttgtt taatgactcg aaatataaat tttaattttc 660
gtataaggtt cagatttaca gtattagtta tattataatt tacagaaatt tttcaatttc 720
ttttctaata actacacata cagcaaaaag tatgcctggt ggtaacgttc attaaattaa 780
gaagnttgtc gttgcttgaa acttgtgaaa attttgatag tttt 824
<210>576
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>576
cgatgcgata ccgacaaagc tcc 23
<210>577
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>577
cacaagtttc aagcaacgac aatcttc 27
<210>578
<211>804
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(27)..(165)
<223〉n=a, c, g or t/u
<400>578
cgatgcgata ccgacaaagc tcccttngac tcggacgcgc cagaccgaca gagaacggaa 60
gtagagcgaa gcgaggcaaa gttgcacaag gtgtccgtct acactctcgt acttgttgaa 120
cctcgatcga cttcggcgag agtgtggagc tcacataaca ttttntcata gagagtaata 180
atgtaacagt ttgtagtttc taccagttgt gatgtaacag gcgtaacgct atgttatttc 240
acaatatgga gaagatctac tacttcttca tttgtgacga gatctaccag cgaaatttca 300
aaaattgtcc tcgagatgga catttcaaac ttttttaggt tctatgatct taatttaact 360
tccatcaaca ataagattta ctgtttttga ttaaatagtt aatctagcaa agatagacca 420
gcaggtactt ccttaaatct agtaatggtc agcgtttaca tagaccaata atagtttatt 480
aagctttttt cggtcaactt tttaagtctt gtttttaaag gaatgtttgt ataacatttt 540
aaacctttgt aaaacatgta ccattaatgt tgcccttcta ctcctttata aaaataattg 600
ttaaaataac ttataaaatt aatcttgttt aatgactcga aatataaatt ttaattttcg 660
tataaggttc agatttacag tattagttat attataattt acagaaattt ttcaatttct 720
tttctaataa ctacacatac agcaaaaagt atgcctgtgg taacgttcat aaattaagaa 780
gattgtcgtt gcttgaaact tgtg 804
<210>579
<211>812
<212>DNA
<213>Diabrotica virgifera
<400>579
cggagacgag tcatttgcgg acatgtgttt gtcgagcaaa ccggcattat tttttcatgt 60
agaattgccc tttaaagttt ttcatactta tttactaaca ccctgtatgt gtcgacaaca 120
catgtacaag tatgcatgca caatgcgcca ttttaaactt gaacatcagt agttgaagca 180
tccagtatcg tatgtctaca cgaatggtca aaactcaact gtattaaact ttgtacaagt 240
ctttcacaca cacactctca attacacttg cgtaaaaaat taacaagtaa aaattacaaa 300
atgttcacaa gtctcttgcc acttgtacag ttaacgtact tgtgctagca ttacccaaca 360
cccgttccag tatacttgtg caataaactt gtgcatggga acacgttggg aagaaaaatg 420
tgtaaggtta ggtcgaacac gttgaccatt cgcaaaatta aattccaaca gagggcgctc 480
aaaatttcaa agatggacga caactctagg aaaacaattc attttgtcat ttgaattcac 540
agttctaaaa cgttacatta aaatcattta caggagtgtt ttgccaaagt aaccactaag 600
ttttgcaact aagacatctt ataagttaaa gacgactcaa aattatgttt aaactgtatg 660
cattcattaa aatttgatgc taactactga tttgttttta cctttttttc ataaaaaaat 720
ctggcccccg ataatcacac agcgttctaa aaattattaa tctatcttag gatttctaat 780
tttgttttta atttaattaa taggtgcact ac 812
<210>580
<211>24
<212>DNA
<213>Diabrotica virgifera
<400>580
ggagacgagt catttgcgga catg 24
<210>581
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>581
cttagtggtt actttggcaa aacactcctg 30
<210>582
<211>599
<212>DNA
<213>Diabrotica virgifera
<400>582
ggagacgagt catttgcgga catgtgtttg tcgagcaaac cggcattgtt ttttcatgta 60
gaattaccct ttaaagtttt tcatacttgt ttgctaacac cccgtatgtg tcgacaacac 120
atgtacaagt atgcatgcac aatgcgccat tttaaacttg aacatcagta gttgaagcat 180
ccagtatcgt atgtctacac gaatggtcaa aactcaactg tattaaactt tgtacaagtc 240
tttcacacac acactctcaa ttacacttgc gtaaaaaatt aacaagtaaa aattacaaaa 300
tgttcacaag tctcttgcca cttgtacagt taacgtactt gtgctagcat tacccaacac 360
ccgttccagt atacttgtgc aataaacttg tgcatgggaa cacgttggga agaaaaatgt 420
gtaaggttag gtcgaacacg ttgaccattc gcaaaattaa attccaacag agggcgctca 480
aaatttcaaa gatggacgac aactctagga aaacaattca ttttgtcatt tgaattcaca 540
gttctaaaac gttacattaa aatcatttac aggagtgttt tgccaaagta accactaag 599
<210>583
<211>802
<212>DNA
<213>Diabrotica virgifera
<400>583
cgtggcgttt ttctatttac agtatgtgaa tgtgtcaaag taactgtgtt tttcaaaaat 60
taacaaaaga aattcaaaat gtacaagtgg acaaaaaata ttaaacaaat gtatatagtg 120
tatctatttc taatcgaatc aacaaaatat gatcttactg aacagaatat gatgcaagct 180
aatattaaat gcaactcgta tgttttatta tatcctaaac caaagactta ttcatcttga 240
aggtgactgt gtgccgtcat ctcttttatt gagacaatta ggacgttttt cgttctcagc 300
ggcttctcgg aaatccctgg cttacagaaa cggatggtga ctatagtcac ggaactgtca 360
aaattaattt tgtatcttat atgaagcctc aaacgttttg gaaatatttc ttctctttat 420
caggaactgg aaagaagtat atgccctcag tttgttatct ttctctagat gatgggagga 480
aaaattttta aaatacctgt ttgtcagagt tttattacta ttaagaagaa ttcttcatct 540
taaaggtaac cgggtgtcgt catcactttt attgacacaa ttaggacgtt ttttgatctc 600
aatggctttt ggtgtggaca atagttatag aactttcaaa accaattttg tgtcctgtct 660
agatcatcaa acggttttga gaagatttct tcccttcata tggagctgga aagaagtatt 720
tgacacctgt tagttatctt tctctagatg atggaaagaa aatctttttg aaagctatac 780
agaagtctta aaatacctgt tt 802
<210>584
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>584
gtggcgtttt tctatttaca gtatgtgaat gtg 33
<210>585
<211>35
<212>DNA
<213>Diabrotica virgifera
<400>585
gataactaac aggtgtcaaa tacttctttc cagct 35
<210>586
<211>737
<212>DNA
<213>Diabrotica virgifera
<400>586
gtggcgtttt tctatttaca gtatgtgaat gtgtcaaagt aactgtgttt ttcaaaaatt 60
aacaaaagaa attcaaaatg tacaagtgga caaaaaatat taaacaaatg tatatagtgt 120
atctatttct aatcgaatca acaaaatatg atcttactga acagaatatg atgcaagcta 180
atattaaatg caactcgtat gttttattat atcctaaacc aaagacttat tcatcttgaa 240
ggtgactgtg tgccgtcatc tcttttattg agacaattag gacgtttttc gttctcagcg 300
gcttctcgga aatccctggc ttacagaaac ggatggtgac tatagtcacg gaactgtcaa 360
aattaatttt gtatcttata tgaagcctca aacgttttgg aaatatttct tctctttatc 420
aggaactgga aagaagtata tgccctcagt ttgttatctt tctctagatg atgggaggaa 480
aaatttttaa aatacctgtt tgtcagagtt ttattactat taagaagaat tcttcatctt 540
aaaggtaacc gggtgtcgtc atcactttta ttgacacaat taggacgttt tttgatctca 600
atggcttttg gtgtggacaa tagttataga actttcaaaa ccaattttgt gtcctgtcta 660
gatcatcaaa cggttttgag aagatttctt cccttcatat ggagctggaa agaagtattt 720
gacacctgtt agttatc 737
<210>587
<211>778
<212>DNA
<213>Diabrotica virgifera
<400>587
tcaaaaaatt catgaaagtc agatgacgat aaccaaggag ctgtcatgcg tctgcgcgaa 60
gaactaaaat gtttgacgcg ccgtcaccaa aatggaacat ggagaacaaa ggattttcgc 120
ggagtgaccc tactgattat ttagcattat actaatctca aatacattag gtttgttcta 180
gcatcagttt caagcggttt gaaatcatca gaagcatgcg catttgtttg atggcgttta 240
agcacacaaa ttactagttt gaaactacta gtccagcgtt ctaactttga tttggaaact 300
agctttaaac ggtcaaaagg gtttgcggat tttgttctga gtcaatttgt gacttgcgag 360
gtggaattat tgtttgaggt ttataaattt taaatgaaaa tgatatgttt tgactgtttg 420
ttacttacca ttatttacgt ttataacatt aattttctca caatggagca ctgaggaacg 480
tttgtttttc tatacttcca caaaattttg tggaagtatg gaaaaacaaa cgtttttcag 540
tgttttattg tgagataaaa tgaacttcca tcaagtaacg gtcgaatcca tcaattacat 600
tgattttcaa tatttaacgt aaatcttgaa aatttggata acacaagaaa aatatatttc 660
taatctaacc tcaaaattat aaataaaaac aaacatgaac cagtctcatt tgacgttagt 720
attttctccg aaaaaaaagc gttctagcaa aaaacagttt gctaccagtt tgtggatt 778
<210>588
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>588
catgaaagtc agatgacgat aaccaaggag 30
<210>589
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>589
ctaacgtcaa atgagactgg ttcatgtttg 30
<210>590
<211>709
<212>DNA
<213>Diabrotica virgifera
<400>590
catgaaagtc agatgacgat aaccaaggag ctgtcatgcg tctgcgcgaa gaactaaaat 60
gtttgacgcg ccgtcaccaa aatggaacat ggagaacaaa ggattttcgc ggagtgaccc 120
tactgattat ttagcattat actaatctca aatacattag gtttgttcta gcatcagttt 180
caagcggttt gaaatcatca gaagcatgcg catttgtttg atggcgttta agcacacaaa 240
ttactagttt gaaactacta gtccagcgtt ctaactttga tttggaaact agctttaaac 300
ggtcaaaagg gtttgcggat tttgttctga gtcaatttgt gacttgcgag gtggaattat 360
tgtttgaggt ttataaattt taaatgaaaa tgatatgttt tgactgtttg ttacttacca 420
ttatttacgt ttataacatt aattttctca caataaagcg ctgaagggcg tttgtttttc 480
tatacttcca caaaattttg tggaagtatg gaaaagcaag cgtttttcag tgttttattg 540
tgagataaaa tgaacttcca tcaagtaacg gtcgaatcca tcaattacat tgattttcaa 600
tatttaacgt aaatcttgaa aatttggata acacaagaaa aatatatttc taatctaacc 660
tcaaaattat aaataaaaac aaacatgaac cagtctcatt tgacgttag 709
<210>591
<211>765
<212>DNA
<213>Diabrotica virgifera
<400>591
gacaatttgg aatttaattc tttggaatcg ttgtcagtgg actttcataa ttttttacat 60
aatttaattt tacggtagaa taattttttc aacgttactg tttagtgctg gcctttaaac 120
gaatgtgatt ctagatgata gttgttaaat gatcgtcaag tcgaatagtg gtgatctctg 180
agagtctcct gaagtagtaa ggcagataaa tgaatagctg tgagtttgtt gaaataagtg 240
tcctgacgga ggctcatcac gtaaagcatt gtaagttata ttgttctact tatattccaa 300
gagtcaccgt tgcatgccgg aacgagaaat agattcagtt tattgagagg agaaaaggct 360
agcatggttt tttgaacgat acgtgcatct gaagggggtc attgatgaca ataggcttgc 420
aatagtttgt tgcgagattg ctgactacat agggggctgc taagagtaaa ttgtaggcga 480
ccagagacaa gaatttggac aactcatcat ccgagagaca gttttatttt ttttgtagaa 540
ttattcataa cgcaaatttc aataagtact ttagatagtg gtaggagtat ttcaataatc 600
agaataggag atattatttt tagaggatat tttgagggtg aatttatttc aatagatgtt 660
tttgtaccat atatgtgttt tattccgtta gtctttgacc ttatttatca tatgtaaagc 720
aaaggagata ttgaagcacg agaatataaa accctgagat tagag 765
<210>592
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>592
ctttggaatc gttgtcagtg gactttc 27
<210>593
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>593
ctcgtgcttc aatatctcct ttgctttac 29
<210>594
<211>726
<212>DNA
<213>Diabrotica virgifera
<400>594
ctttggaatc gttgtcagtg gactttcata attttttaca taatttaatt ttacggtaga 60
ataatttttt caacgttact gtttagtgct ggcctttaaa cgaatgtgat tctagacgat 120
agttgttaaa tgatcgtcaa gtcgaatagt ggtggtctct gagagtctcc tgaagtagta 180
aggcagataa atgaatagct gtgagtttgt tgaaataagt ttcctgacgg aggctcatca 240
cgtaaagcat tgtaagttat attgttctac ttatattcca agagtcaccg ttgcatgccg 300
gaacgagaaa tagattcagt ttattgagag gagaaaaggc tagcattgtt ttttgaaaga 360
tacgtgcatc tgtagggggt cattgatgac aataggcttg caatagtttg ttgcgagatt 420
gctgactaca tagggggctg ctaagagtaa attgtaggcg accagagaca agaatttgga 480
caactcatca tccgagagac agttttattt ttttttttgt agaattattc ataacgcaaa 540
tttcaataag tactttagat agtggtagga gtatttcaat aatcagaata ggagatatta 600
tttttagagg atattttgag ggtgaattta tttcaataga tgtttttgta ccatatatgt 660
gttttattcc gttagtcttt gaccttattt atcatatgta aagcaaagga gatattgaag 720
cacgag 726
<210>595
<211>735
<212>DNA
<213>Diabrotica virgifera
<400>595
ttattttagc acacaaacaa aatgctcggt gttagtatat tatagcatca atgtttcgaa 60
ttttgcacga tccctcttca ggtgattcga aaaacatgaa tgcgtttaaa aataattcga 120
tcgaaatttt gcgcctacgc tctcaaaaaa ggttaaagta ttatacattt ttgtaatcag 180
tatttcaatt gcttttaaat cagctgtcat atgatgtact tttccatttt aaaaaaatta 240
aagttgtgcc tgtcacctga agagggatcg catgaagttc gaaacattga tgttataata 300
cactttgatc attttaaaaa tcgacctgtc cgagcgtttt gcttatgtgc taaaaataaa 360
taagttaata gggggggggg gtaacaatca ttccagcgca ctgtatggta actacgaggc 420
aagtagaagc tgtacctgga atcaacataa ttagcgttta agccattttg aagaacaaat 480
tccattcata taaaatgtac acctagtaca gaaacttaat gagaatgatt atgaccgacg 540
tttacagttt tgtgaaataa ttagtgagcg agcagtgagt gatccacagt tgcgctttaa 600
tattttttct gcggtgaata cactgttctc ataaaaaatg gaactagtgc aattactgga 660
gatggatatg agctattacc tccgatttcg ttgaacgaaa aatcgtcaca attgccgtta 720
ttggtctgat aaaac 735
<210>596
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>596
ctcggtgtta gtatattata gcatcaatgt ttcg 34
<210>597
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>597
gaaatcggag gtaatagctc atatccatct c 31
<210>598
<211>662
<212>DNA
<213>Diabrotica virgifera
<400>598
ctcggtgtta gtatattata gcatcaatgt ttcgaacccc gcacgatccc tcttcaggtg 60
actcgaaaaa catgaatgcg tttaaaaata attcgatcga aattttgcgc ctacgctctc 120
aaaaaggtta aagtattata catttttgta atcagtattt caattgcttt taaatcagct 180
gtcatatgat gtacttttcc attttaaaaa aattaaagtt gtgcctgtca cctgaagagg 240
gatcgcatga agtccgaaac actgatgcta caatacactt tgatcacttt aaaaatcgac 300
ctgtccgagc gttttgctta tgtgctaaaa ataaataagc caataggggg ggggtaacaa 360
ttattccagc gcactgtatg gtaactacga ggcaagtaga agctgtacct ggaatcaaca 420
taattagcgc ttaagccatt ttgaagaaca aattccattc atataaaatg tacacctagt 480
acagaaactt aatgagaatg attatgaccg acgtttacag ttttgtgaaa taattagtga 540
gcgagcagtg agtgatccac agttgcgctt taatattttt tctgcggtga atacactgtt 600
ctcataaaaa atggaactag tgcaattact ggagatggat atgagctatt acctccgatt 660
tc 662
<210>599
<211>711
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(525)..(705)
<223〉n=a, c, g or t/u
<400>599
cacactatat ttatttgtga aatgcaagct aacgattgaa aacgatcggt catacacata 60
tattatgtgt cacataactt tggagaggta aaaaaatact cagaaaaact aaaaataata 120
aaaacaaaga acgtcttttc ctcttagttc ataaaggagc aaaattagga aagaaaaccc 180
tatcccacca acacctcttg taaaaatata aacggttaag acaagcagtg gatcttatgt 240
gtcaaattca cgtctattcc acgaattttc tgtttaagta aattgtagat ctttggttgt 300
atatatagtt acttttgttt catctaaaag ttatctacat taaccatata aaatgtttct 360
gaaatgttat tgaagaatta agatttcaag aagaatgtct ccaactaaaa tcgattttgg 420
taaaatcttg ttttgttaca agtgtacaaa tgtttgatgc aaaatatcta ttatgaggtt 480
gtactaaatt gtgagtatat ttaaaaataa aaaatactgt atctncttaa anaaccattc 540
aataaaaaaa taatttctta atttccccca aaaactttaa aattaaatta ataacttttt 600
cttatatcta ttatatctnc ttataatacc accacactca attttaaaaa tcttccaatc 660
attcttttat naatttttan tacaaatata aatttttttt ttacnaactt t 711
<210>600
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>600
gaaatgcaag ctaacgattg aaaacga 27
<210>601
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>601
cgattttagt tggagacatt cttcttgaaa tc 32
<210>602
<211>395
<212>DNA
<213>Diabrotica virgifera
<400>602
gaaatgcaag ctaacgattg aaaacgatcg gtcatacaca tatattatgt gtcacataac 60
tttggagagg tgttaggata ctcagaaaaa ctaaaaataa taaaaacaaa gaacgtcttt 120
tcctcttagt tcataaagga gcaaaattag gaaagaaaac cctatcccac caacacctct 180
tgtaaaaata taaacggtta agacaagcag tggatcttat gtgtcaaatt cacgtctatt 240
ccacgaattt tctgtttaag taaattgtag atctttggtt gtatatatag ttacttttgt 300
ttcatctaaa agttatctac attaaccata taaaatgttt ctgaaatgtt attgaagaat 360
taagatttca agaagaatgt ctccaactaa aatcg 395
<210>603
<211>699
<212>DNA
<213>Diabrotica virgifera
<400>603
ccgattttaa gaattttcgt ctataagtta caacatttta ccaaaatact gaaaaagaac 60
tgattagtct attgaaataa ctttaaaatg agttgaagta aaatagaatt ggagctttgt 120
ttatcaataa acatcaatga aaggtataca tttgcgatat gccccgtgtt ggcttaatcc 180
gttactgttt aaatttattt cttacgtttt aacctaacta cctgaggtat tagatttaat 240
ccatggtttc gaattcacct gtagaaggtt tcgagttggc agattcaggt agtagaaaag 300
ttacgaattg gccggtgttc tttgtatacc gtagtcccta gagataacgg actaccctgc 360
tttaatccca aagccgcgat agcgctataa aagggagact attattatta tcattttcta 420
tgttgcgttt cctttccgaa ccataaatac caaaaaaatt tgctactttt tgttcaatcg 480
taaatcaatc aatcagtcgt aaatcagaaa attaattaat gccggtacat ggacttcaag 540
gattaaagac aatcacaggt aagatatcag tcattgaaag atagtatagg agtatagcat 600
tgcattctgt ggatgaggca acatatttgg ggaaatataa gtttcttttt attcaattgc 660
gaacaattta agcaacattt tagtacaaac ttttttctt 699
<210>604
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>604
ggtatacatt tgcgatatgc cccgtg 26
<210>605
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>605
ccaaatatgt tgcctcatcc acagaatg 28
<210>606
<211>488
<212>DNA
<213>Diabrotica virgifera
<400>606
ggtatacatt tgcgatatgc cccgtgttgg cttaatccgt tactgtttaa atttatttct 60
tacgttttaa cctaactacc tgaggtatta gatttaatcc atggtttcga attcacctgt 120
agaaggtttc gagttggcag attcaggtag tagaaaagtt acgaattggc cggtgttctt 180
tgtataccgt agtccctaga gataacggac taccctgctt taatcccaaa gccgcgatag 240
cgctataaaa gggagactat tattattatc attttctatg ttgcgtttcc tttccgaacc 300
ataaatacca aaaaaatttg ctactttttg ttcaatcgta aatcaatcaa tcagtcgtaa 360
atcagaaaat taattaatgc cggtacatgg acttcaagga ttaaagacaa tcacaggtaa 420
gatatcagtc attgaaagat agtataggag tatagcattg cattctgtgg atgaggcaac 480
atatttgg 488
<210>607
<211>688
<212>DNA
<213>Diabrotica virgifera
<400>607
aaagttaaca acaataaaca gaataattta atttgaaccg atttttttag tgcaaacaag 60
taattggact tcgtaagtcc taggttttca cccaaagtaa tcgtcagtag aactgtaatt 120
cgatatttga actcttcgtg taactttgcg tcgatggata tacgatttta ctaattttga 180
gtcattttta ctaaactttg ggttatcatt gtcacagaaa tgacttcaaa accggaacta 240
aatattgaaa ctcaactttt caatacgctt cgattgatgt gttacatgta ctatttctgc 300
gactataatg gcacttctgg ttagaacttt ttaaccggaa atgatataaa aaccaaaact 360
ttatatttgt tctcatcttg ctaaggcacg tcaaatgata tatcgcttac actatttcgg 420
agactttaaa acagtaccta tgattgtaac tctaaaatcg gaagtcagat gtaaagtttc 480
tcatctttaa taccatcctt gggttttaag ctttcattcg acacatcatt tgtcattctg 540
tctgtattaa taacggagga gttttattcg cggacggact gacaaacagt catgaaacct 600
aaagtatata tttgttctcg actaatatat cacttgcact attccgatgc cgttaaaata 660
atacttctgg tcgtatttct aaaaccgc 688
<210>608
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>608
cgatatttga actcttcgtg taactttgcg tc 32
<210>609
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>609
ccagaagtat tattttaacg gcatcggaat ag 32
<210>610
<211>550
<212>DNA
<213>Diabrotica virgifera
<400>610
cgatatttga actcttcgtg taactttgcg tcgatggata tacgatttta ctaattttga 60
gtcattttta ctaaactttg ggttatcatt gtcacagaaa tgacttcaaa accggaacta 120
aatattgaaa ctcaactttt caatacgctt cgattgatgt gttacatgta ctatttctgc 180
gactatgatg gcacttctgg ttagaacttt ttaaccggaa atgatataaa aaccaaaact 240
ttatatttgt tctcatcttg ctaaggcacg tcaaatgata tatcgcttac actatttcgg 300
agactttaaa acagtaccta tgattgtaac tctaaaatcg gaagtcagat gtaaagtttc 360
tcatctttaa taccatcctt gggttttaag ctttcattcg acacatcatt tgtcattctg 420
tctgtattaa taacggagga gttttattcg cggacggact gacaaacagt catgaaaccg 480
aaagtatata tttgttctcg actaatatat cacttgcact attccgatgc cgttaaaata 540
atacttctgg 550
<210>611
<211>973
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(943)
<223〉n=a, c, g or t/u
<400>611
gagcaataaa agaattcgca gtttgagagg aaagtttcaa caccccgtat cttggaaacg 60
aagcatttgc ggacatacgt ttatagagca aactgtcatt atgtaacacc ctgtataggc 120
ccacacaaaa aattattacc tccttcatga gacttttttt tattgagtta ttcatgtcgg 180
gttggacagc gtttctggtg tgaaaaattt tcgggagggg gacggttcgt aaatatgggg 240
gtttataaac tttggtgcat ctatggtggt tcctgtttat ctgaaccatc tcagatagtt 300
aaggggtggt taccccctac tataggggtt gatgaagtaa cactactcac agtatattca 360
tttatttata agttgaagta actacggtaa agagttggtg gctaaatatt tatccgctgt 420
gatgtttacc cgctgggatc tcaaataccc atgattaatc tttacgcaat gaatttagaa 480
cgtcgaatgt ggaatcccct gtttatgttt tggtatatat aaaaagtgaa agtgtttgta 540
ttataaatgc tgaatcaact tgattataaa taaagaataa tatttgctac tacagctgac 600
cttgcattat cgataactga tacacttgta tagtaatata ggtcaatcat gtttatgata 660
aacaacgcgt attcgtttac caaggacatt taaatattaa aagaattagt cttgccctta 720
ataagatggt tactaagaga tgctgtgaat cccaatacac atccgacaac tggagtaagt 780
atccttgaaa atttgtcgga aaatattacc agtgaattgt atttttatca aaatattctg 840
caaaaaaacc catcatttat gactctatag tggacgcaca tatccacgta tagtccccac 900
atatgagggg tgcatcataa agagtaataa attataccca ttngtaacat tgagttacca 960
agtgtcaaaa atc 973
<210>612
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>612
gcagtttgag aggaaagttt caacacc 27
<210>613
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>613
ggatatgtgc gtccactata gagtcataaa tg 32
<210>614
<211>867
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(771)
<223〉n=a, c, g or t/u
<400>614
gcagtttgag aggaaagttt caacaccccg tatcttggaa acgaagcatt tgcggacata 60
cgtttataga gcaaactgtc attatttaac accctgtata ggcccacaca aaagattatt 120
acctccttca tgagactttt ttttttattg agttattcat gtcgagttgg acgtttctga 180
tatgaaaaat tttcaggagg gagacggttc gtaaatatgg gggtttataa actttggtgc 240
atctatggtg gttcctgttt atctgaacca tctcagatag ttaaggggtg gttaccccct 300
actatagggg ttgatgaagt aacactactc acagtatatt catttattta taagttgaag 360
taactacggt aaagagttgg tggctaaata tttatccgct gtgatgttta cccgctggga 420
tctcaaatac ccatgattaa tctttacgca atgaatttag aacgtcgaat gtggaatccc 480
ctgtttatgt tttggtatat ataaaaagtg aaagtgtttg tattataaat gctgaatcaa 540
cttgattata aataaagaat aatatttgct actacagctg accttgcatt atcgataact 600
gatacacttg tatagtaata taggtcaatc atgtttatga taaacaacgc gtattcgttt 660
accaaggaca tttaaatatt aaaagaatta gtcttgccct taataagatg gttactaaga 720
gatgctgtga atcccaatac acatccgaca actggagtaa gtatccttga naatttgtcg 780
gaaaatatta ccagtgaatt gtatttttat caaaatatac tgcaaaaaaa cccatcattt 840
atgactctat agtggacgca catatcc 867
<210>615
<211>967
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(784)..(895)
<223〉n=a, c, g or t/u
<400>615
aatgtgatat ttaactagtg atttattttg tatttatcat atgttttata atttaacgaa 60
aacgtatctt tagactgttt gcaagagttg ttcatccact gcatggactt ttgggtaaaa 120
gacgtatagc aggttttaca aagcttcggt aattggacac atatttgaca ttaatcagtc 180
aactgtcata caacatactc atttttattt caaggaaata atcttagaat aagtattttt 240
tgcgtaaaca tgttatatga cgtataatag ataatatgat gtatattcca tagacatata 300
tattattatc atagactgag cctaccctcc gcgcttcctg gcgacaagat ctcttggaca 360
ggtttgcggt atctctttct agcacattgt atcgagaaac taacatgaaa ctgagtgggg 420
gtataggcac ggaaagggag gactactgtc gcagctttac tatgcataag agtgaaacag 480
cactgagcca caaaaaaaaa gatggtgtcg tcacttcgcg caacatgaca ctctatgata 540
atgtgtgtgt ctatggtata tcccagtgga catcctaagt cttgacgtca caaaattggg 600
agtagcttat atttggctcc aggcaattct gtttgtgatg ttaagcactc atagggaatt 660
tttaatttat tgtttatgtg gtttgtgtga caaaataaga cttttcattt gggtatttag 720
ttggagagac gtgccggtta agagattttt attcgttttt gcccaggtga gttaatttaa 780
ttanatgatt agaatgtaaa cagttttgag gttatgttta tttttcatca ctaaggaata 840
aaaaacacct gagcnaaaac gaataaaaag tctcctagtt gacacgtttc tttgncggaa 900
tacctaaatg gagtcttatt ttgccgcaca aagcacataa atgaaaaatt ccttatgacc 960
atttgac 967
<210>616
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>616
gcaagagttg ttcatccact gcatg 25
<210>617
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>617
gtgcggcaaa ataagactcc atttaggt 28
<210>618
<211>846
<212>DNA
<213>Diabrotica virgifera
<400>618
caagagttgt tcatccactg catggacttt tgggtaaaag acgtatagca ggttttacaa 60
agcttcggta attggacaca tatttgacat tgatcagtca actgttatac aacatactca 120
tttttatttc aaggaaataa tcttagaata agtatttttt gcgtaaacat gttatatgac 180
gtataataga taatatgatg tatattccat agacatgtat attattatca tagactgagc 240
ctaccctccg cgcttcctgg cgacaagatc tcttggacag gtttgcggta tctctttcta 300
gcacattgta tcgagaaact aacatgaaac tgagtggggg tataggcacg gaaagggagg 360
actactgtcg cagctttact atgcataaga gtgaaacagc actgagccac aaaaaaaaag 420
atggtgtcgt cacttcgcgc aacatgacac tctatgataa tgtatgtgtc tatggtatat 480
cccagtggac atcctgagtc ttgacgtcac aaagttggga gtagcttata tttggctcca 540
aacaattctg tttgtagtgt taaacactca tagggaattt ttaatttatt gtttatgtgg 600
tttgtgtgac aaggtaagac ttttcatttg ggtatttagt tggagagacg tgccagttgg 660
gagattttta ttcgtttttg cccaggtgag ttaatttaat taaatgatta gaatgtaaac 720
agttttgagg ttatgtttat tttccatcac taaggaataa aaaccacctg agcaggaacg 780
aataaaaaat ctcttagttg acacgtttct ttgacggaat acctaaatgg agtcttattt 840
tgccgc 846
<210>619
<211>967
<212>DNA
<213>Diabrotica virgifera
<400>619
acaattatta aaaataatag ttagtaataa aataatgaca aaaatttctt taggctattg 60
cagggtgggc tttaaacttt gagttggtca ctttatgact tttataataa taatttttaa 120
tcgagttatt aagccttgaa aatggccatt ttcgcgtttt tcaaatttga aattgcatgt 180
aactcggcaa cagtcaattt tatagaaaaa tcacaagata ccttttttgc tcagcttgat 240
ccagaaaatc taaaacaagt ttgtccgaag tgaaaaaatt gattttttga attcgtttaa 300
aaaaatgtgt agaacaactt tccgaccgcg gtactgcctg gcaccttgtg aatttgttat 360
aaggacctgt ttttgagtaa gtttgtgcaa aaaaattaat cggaataatt tacctaacgg 420
gacaagcata cagcgtggac tatttgcatt atgagccaaa cgtaaatggt ttgtaaaata 480
cactaaacac aaaaaaaatt agcagccatc gccaaaaaaa gttatacgta cctattaaaa 540
aacaaaaaaa atgaggttat aatatgtaca ctcgaccttc gggtccgtaa aaatggatgt 600
tctgtaaaag cctcagctgt gcgtgtgaat tttttgtaat ttataattta ataattacta 660
actgttctaa atacgaaatg agccacagtt tggctaaaaa atgatttttt ctacaaccgt 720
gttaaaaatg caatttttag cactccatac gtgcgttaaa aatgctactt taagacacta 780
gtgctttaaa atatttttaa ggcactgcag ttcgtattga ccgtatagac aattttgatg 840
taatgtcaaa aaaatataaa aatggaatgt cagtcacgtt caaagtaaaa gttttgtaga 900
tattgtcctg taatttacgt tgtaaacaaa tattgtatga gatgttaaag gtacattttt 960
aggcact 967
<210>620
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>620
gctcagcttg atccagaaaa tctaaaacaa g 31
<210>621
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>621
ctgtggctca tttcgtattt agaacagtta gt 32
<210>622
<211>458
<212>DNA
<213>Diabrotica virgifera
<400>622
gctcagcttg atccagaaaa tctaaaacaa gtttgtccga agtgaaaaaa ttgatttttt 60
gaattcgttt aagaaaatgg ttaaaacaac tttccgaccg cggtactgaa tggcaccttg 120
tgaatttgtt ataaggacct gtttttgagt aagtttgtgc aaaaaaatta atcggacaag 180
cggattaacg ggacaagcat acagcgtgga ctatttgcat tatgagccaa acgtagatgg 240
tttgtaaaat acactaaaca caaaaaaatt agcagccatc gccaaaaaag ttatacgtac 300
ctattaaaaa acaaaaaaaa atgaggttat aatatgtaca ctcgaccctc gggtccacaa 360
aaatagatgt tctgtaaaag cctcagctgt gcgtgtgaat tttttgtaat ttataattta 420
ataattacta actgttctaa atacgaaatg agccacag 458
<210>623
<211>1376
<212>DNA
<213>Diabrotica virgifera
<400>623
cggacgcgtg ggttcaagca actgttagcc ttgatcctgg ggataacagt catggcgttc 60
gtcaccaacg ctttcgagtg atggcgacca caaaacatta tcacaaatgt acttgaagca 120
atagtttatt tgaaataatc agaaatttcc ataattagtg gttagtatta ttagttgcgg 180
ttttattaat aagtgtcaac tgtcatttgt caaaatgtca actgtcattt gtcaaaatgt 240
catctgttat ttgtcaaaat gacagatgac aataactcaa ctgtcagttg tcaaaaagat 300
ggcgtaaaaa tatataaatt agttctgtag agtataaaag tcctttatgt aattcttact 360
ttcaaataaa ctcttgcact gacaaattaa atgtaatttt gacagtttct gaaaggtttg 420
actaaatgta aatgtcagaa ttatatatct gttgattttt atacaggcac atcaaacata 480
ttaacataca caattgaaga tcgttgtaac tgatatctgc agtcaacaat ttggaaattg 540
cttcacagct aactcaaatt agaagttatg tttcacaact gcataaaata attgttaaca 600
ggatcaatat tttattgttt atattagttt ttgtaaagat atgtttcact agtacttaaa 660
tatcgatcag agacacaaac tgtgttagaa aaggtccatg gaatgtatca atatgatttt 720
attttttata tcaccttcat ttgtgcattc cggtctcaat aattaatgta aaacgtcaaa 780
ttttcgtttc aggcgacaat tactgatact gcctacaaat agtggtataa ggcttttcat 840
cgattgtcat ttgtttcgag cttcttctgt catctagcag gcaagaccgc ctaaatgcgg 900
tataatttct agctatttca gctatgttta ggtatgcagc atgcaaacct gcctttggtc 960
gtatactact aagtgtactt gtaaatattt ggttaacgct aattgattgg ctctattaag 1020
tcaaaagata tcaagctttg aatttttcca ttgaaaataa aattggcctg ctagagggat 1080
aatctgtgta taatattaat atacacggat tataccacat attatgacag aagctcgaaa 1140
taaatgactg aatgaaaagc cctatggagc gagacttgtc agaacatgtt ttggtttcac 1200
ctaaccttac ataacctaca atttatctga atagctgtct attgagatat attttgtctg 1260
ccactgtctt ttttatgaat aacaattact gttttaccta aaaacaatta aaaaacatgt 1320
gataatgcgc gcgtacgcat ttaatatttt attaatatgc atacttcctc gtgccg 1376
<210>624
<211>26
<212>DNA
<213>Diabrotica virgifera
<400>624
ggataacagt catggcgttc gtcacc 26
<210>625
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>625
catgttctga caagtctcgc tccatagg 28
<210>626
<211>1148
<212>DNA
<213>Diabrotica virgifera
<400>626
ggataacagt catggcgttc gtcaccaacg ctttcgagtg atggcgacca caaaacatta 60
tcacaaatgt acttgaagca atagtttatt tgaaataatc agaaatttcc ataattagtg 120
gttagtatta ttagttgcgg ttttattaat aagtgtcaac tgtcatttgt caaaatgtca 180
actgtcattt gtcaaaatgt catctgttat ttgtcaaaat gacagatgac aataactcaa 240
ctgtcagttg tcaaaaagat ggcgtaaaga tatataaatt agttctgtag agtataaaag 300
tcctttatgt aattcttact ttcaaataaa ctcttgcact gacaaattaa atgtaatttt 360
gacagtttct gaaaggtttg actaaatgta aatgtcagaa ttatatatct gttgattttt 420
atacaggcac atcaaacata ttaacataca caattgaaga tcgttgtaac tgatatctgc 480
agtcaacaat ttggaaattg cttcacagct aactcaaatt agaagttatg tttcacaact 540
gcataaaata attgttaaca ggatcaatat tttattgttt atattagttt ttgtaaagat 600
atgtttcact agtacttaaa tatcgatcag agacacaaac tgtgttagaa aaggtccatg 660
gaatgtatca atatgatttt attttttata tcaccttcat ttgtgcattc cggtctcaat 720
aattaatgta aaacgtaaaa ttttcgtttc aggcgacaat tactgatact gcctacaaat 780
agtggtataa ggcttttcat cgattgtcat ttgtttcgag cttcttctgt catctagcag 840
gcaagaccgc ctaaatgcgg tataatttct agctatttca gctatgttta ggtatgcagc 900
atgcaaacct gcttttggtc gtatactact aagtgtactt gtaaatattt ggttaacgct 960
aattgattgg ctctattaag tcaaaagata tcaagctttg aatttttcca ttgaaaataa 1020
aattggcctg ctagagggat aatctgtgta taatattaat atacacggat tataccacat 1080
attatgacag aagctcgaaa taaatgactg aatgaaaagc cctatggagc gagacttgtc 1140
agaacatg 1148
<210>627
<211>1142
<212>DNA
<213>Diabrotica virgifera
<400>627
tttattgtat taatgtataa tgtgcagtat cattcagacc tagtatttaa agaatttatt 60
ttaagttttt attcatacac acattttttt atgattatac tagttaatgc tgttaagtca 120
tagataagat aggtagatgt taagtcatgt ttgttctcat tttttgtaac ttcggcttgt 180
aatatttgtg gaagttaaaa agtagattgt ttcattttct attagtacaa aaatgttgaa 240
caacaattca atattttaca aaagtcaagt ggttttaatg tatctttggt ttatttaaca 300
aaaaaattta attggataga aattgcatat attctgaaaa ccatgctata actgccagat 360
ttgtgaacaa acaatagcaa gttcctaaga agaacttccg tagcagctat acaaatttaa 420
acctctgttt aaaaaatctg aattaagagt atatgatata ggcacataaa agtgatgtcg 480
aaattaggag tacaaaatgt taatttttaa taattaattt ggcatatgag actaactgaa 540
ggcaaacaaa acttaataac atcataaaat cattgcaata aaaaactgaa aactttttgt 600
cttccatgtt tttatgtggc gcagaaggta caaaaacgta aatctgtaat ttaaaacaat 660
tactgttttt ttatacgtag ttctggcaaa gttttacatt tgcattttag aaaaatgtgt 720
ttcatgttgt gtagtaaagc caaatttagt taactgtaaa aataaattac aaatttattt 780
tggttgtgaa ttggcccgaa aatttttttt atatctacat ttattcagtt ttgccaaact 840
actaacagat acgtattttc gaatatcctt ttgattttaa caaagagcat tgattatttt 900
aagcttctag atgtgaaata aacggtcaac cacaaaaaaa aaaaaaaagg gcggccgccc 960
tttttttttt tttttaacat aatagtgaaa tctttatttt aatacatatt atagtgacac 1020
attataaagc caatacatta acggcttata acgcatttgt cgttactcga tccatctact 1080
tgtgacagtt ggaagctgac gaagatattc gcagcttgtc cttcaagtgg gtcaatatca 1140
tt 1142
<210>628
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>628
ccatgctata actgccagat ttgtgaac 28
<210>629
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>629
gtggttgacc gtttatttca catctagaag c 31
<210>630
<211>593
<212>DNA
<213>Diabrotica virgifera
<400>630
ccatgctata actgccagat ttgtgaacaa acaatagcaa gttcctaaga agaacttccg 60
tagcagctat acaaatttaa acctctgttt aaaaaatctg aattaagagt atatgatata 120
ggcacataaa agtgatgtcg aaattaggag tacaaaatgt taatttttaa taattaattt 180
ggcatatgag actaactgaa ggcaaacaaa acttaataac atcataaaat cattgcaata 240
aaaaactgaa aactttttgt cttccatgtt tttatgtggc gcagaaggta caaaaacgta 300
aatctgtaat ttaaaacaat tactgttttt ttatacgtag ttctggcaaa gttttacatt 360
tgcattttag aaaaatgtgt ttcatgttgt gtagtaaagc caaatttagt taactgtaaa 420
aataaattac aaatttattt tggttgtgaa ttggcccgaa aatttttttt atatctacat 480
ttattcagtt ttgccaaact actaacagat acgtattttc gaatatcctt ttgattttaa 540
caaagagcat tgattatttt aagcttctag atgtgaaata aacggtcaac cac 593
<210>631
<211>1137
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(1128)
<223〉n=a, c, g or t/u
<400>631
agtaaattta aaacagatat tgtcgaaaaa attatgagca aagattaagg cacgagaatt 60
tcaaaaaatt atttcccatt attactattg ataaaattga ctagcttatt atttactatt 120
gaactggtta tatgcattat gtgataatag gctggcatta ataatatctg tccattagaa 180
aaactgttaa gtgctcctgt tagcgatccg atttttagct aggtttaaag tataggtaac 240
tctgtcgcct gattcctcct cggcacatcg gtcctacatc cgacaatatt ttacggagtg 300
tttcataaca taacacggat atattgatta acaaatatta taaatagttt ctgtgttaaa 360
taagagttgt acaacatcta cagttttgca tcgagctgac ctagtttaaa aaaggatcgt 420
taacaagaga tgtaaagacg cagatatact cgactatcgt ccagatattt gtatatacag 480
cgtcttaaga tgtatcattt aacgaaatat acagttttta caagaagaaa agataatata 540
gtatggtaac cttatcatca aattaacatc gcataaaaac cgttcaagaa acacagagat 600
attgaggaaa agaaaagcac aacattaatt taatcaaaaa tatttctgtt ttacaatata 660
tctcactaag aaacatttct gatttataat attttagata tgtttagagg gagttataga 720
ccagggcgca tctgtaaaaa tattagtaca tttggacgtt gagaggtgac tcaaatttct 780
ttgcagaaat tgcacgaaaa caactcaaac aacaataatt gagtcaatca tcccactcaa 840
aaaggtccgg gaacattgcc taattaatca aaatgtcaaa aactgaagga aaatttcgat 900
tttttccttg gtcttttgat tataacttta aaactattca tttctgagaa aagttgtacc 960
gacatagaag ttgcgtaact aaatttcaca cattatagaa ttggtcaaaa attcaaaaaa 1020
tagtcacccc tgttgcaaaa cagcaataat tgcgaaaaaa ccatacaaaa acaagtattc 1080
gcattttacg cttttcaacc atttatgcta cacttaggac ccttttcngg acgcgtg 1137
<210>632
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>632
gtgctcctgt tagcgatccg atttttag 28
<210>633
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>633
gcaacttcta tgtcggtaca acttttctca g 31
<210>634
<211>781
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(100)
<223〉n=a, c, g or t/u
<400>634
gtgctctgtt agcgatccga tttttagcta ggtttaaagt ataggtaact ctgtcgcctg 60
attcctcctc ggcacatcgg tcctacatcc gacaatattn tacggagtgt ttcataacat 120
aacacggata tattgattaa caaatattat aaatagtttc tgtgttaaat aagagttgta 180
cacaacatct acagttttgc atcgagctga cctagtttaa aaaaggatcg ttaacaagag 240
atgtaaagac gcagatatac tagactatcg tccagatatt tgtatataca gcgtcttaag 300
atgtatcatt taacgaaata tacagttttt acaagaagaa aagataatat agtatggtaa 360
ccttatcatc aaattaacat cgcataaaaa ccgttcaaga aacacagaga tattgaggaa 420
aagaaaagca caacattaat ttaatcaaaa atatttctgt tttacaatat atctcactaa 480
gaaacatttc tgatttataa tattttagat atgtttagag ggagttatag accagggcgc 540
atctgtaaaa atattagtac atttggacgt tgagaggtta ctcaaatttc cttgcagaaa 600
ttgcccgaaa acaactcaaa caacaatatt tgagttatcc tccctttcaa aaaggtccgg 660
aacattgttc aaacaatcaa aatgtcaaaa ataaaggaaa aactcgattt tttcttcgtc 720
tcttgactac aacttcaaaa gtattcattt ctgagaaaag ttgtaccgac atagaagttg 780
c 781
<210>635
<211>1142
<212>DNA
<213>Diabrotica virgifera
<400>635
tttattgtat taatgtataa tgtgcagtat cattcagacc tagtatttaa agaatttatt 60
ttaagttttt attcatacac acattttttt atgattatac tagttaatgc tgttaagtca 120
tagataagat aggtagatgt taagtcatgt ttgttctcat tttttgtaac ttcggcttgt 180
aatatttgtg gaagttaaaa agtagattgt ttcattttct attagtacaa aaatgttgaa 240
caacaattca atattttaca aaagtcaagt ggttttaatg tatctttggt ttatttaaca 300
aaaaaattta attggataga aattgcatat attctgaaaa ccatgctata actgccagat 360
ttgtgaacaa acaatagcaa gttcctaaga agaacttccg tagcagctat acaaatttaa 420
acctctgttt aaaaaatctg aattaagagt atatgatata ggcacataaa agtgatgtcg 480
aaattaggag tacaaaatgt taatttttaa taattaattt ggcatatgag actaactgaa 540
ggcaaacaaa acttaataac atcataaaat cattgcaata aaaaactgaa aactttttgt 600
cttccatgtt tttatgtggc gcagaaggta caaaaacgta aatctgtaat ttaaaacaat 660
tactgttttt ttatacgtag ttctggcaaa gttttacatt tgcattttag aaaaatgtgt 720
ttcatgttgt gtagtaaagc caaatttagt taactgtaaa aataaattac aaatttattt 780
tggttgtgaa ttggcccgaa aatttttttt atatctacat ttattcagtt ttgccaaact 840
actaacagat acgtattttc gaatatcctt ttgattttaa caaagagcat tgattatttt 900
aagcttctag atgtgaaata aacggtcaac cacaaaaaaa aaaaaaaagg gcggccgccc 960
tttttttttt tttttaacat aatagtgaaa tctttatttt aatacatatt atagtgacac 1020
attataaagc caatacatta acggcttata acgcatttgt cgttactcga tccatctact 1080
tgtgacagtt ggaagctgac gaagatattc gcagcttgtc cttcaagtgg gtcaatatca 1140
tt 1142
<210>636
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>636
ggaacgtaca caaaagtttg ggagggt 27
<210>637
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>637
gaacagcaac cagcctgata cgacg 25
<210>638
<211>582
<212>DNA
<213>Diabrotica virgifera
<400>638
ggaacgtaca caaaagtttg ggagggttta agggaacaaa acccccttaa aatttttatg 60
gggtggacaa atttcactat aattttgttt aaagatggtt ctgccatgag aatgatacat 120
gtccattttc aataaaaagt atctaatagt tttcgatata ttgaaaaaga tcgattttca 180
ttttgtaact tcaaggggct gtaactttta tgatgagcac atttgtacca aggtaagtta 240
gattcaatca aactattttt gaccccagaa tgtgtggtat aatttgtgac caatcttttc 300
gggacaccct gtatacaata tatgttccct atgtccagct gaacgattta cgtaggttag 360
atcgactaat atagtaaacg acaattataa tacgttttgt cgacaattat aatacgtttt 420
gtcgtcatat tttaaaagac tcacatttta atgactgacg ttaaatatac acacttctcc 480
atcaattcga taccatgatg ttgaaatacg atatcaaaat gtaaaagagg cacaaactga 540
atgcagacgt tcagtgacgt cgtatcaggc tggttgctgt tc 582
<210>639
<211>1039
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(748)..(886)
<223〉n=a, c, g or t/u
<400>639
ccttcgcgtc cgtgataaca aaatcaatca aagagttgtt tactaaataa ttttgataat 60
atatttgaat aataataatt gatgtaaggc gtacaattaa taaaaagtta tttattgttt 120
atatattatt tatggaaaat ccaagtattt caagtcatta aagttcaaat aaaagtatta 180
ttttataaga gtttgttccg ataaccgtaa ataggtacga gtttagctat aaagtaaagt 240
gaccgtggtg gcataaaatg tagtaaatgc taatgcttca agcacgtact acatttttga 300
agatttcact acacttaaaa agcatatttg cttttctccg tagtatttgc tactatttac 360
cagcctacat agaagaatgt actacgcttt ttaaatatgt gcttgtttag tactatttgg 420
cttcagttta agtgaagttg gtgggtggac gttttcggcg taggtatttt tttgttacaa 480
tatggcagca tttatgaatg tatgtcatag aaaaatttac aaactacgaa gaagattctt 540
aatttttggg gtcattcttt tatcaaataa aatttaataa ttgtgaagaa gattaacaaa 600
taacaattgt ttatttttat ccttgcgtaa ctctttggtc gcttcggatc tgagtcactc 660
atttttactc atgtacaatt ctaataattt ggtacgtaaa atgtgaattc acaaatcaaa 720
agcacatgga aaactaattc catcacgnat ggtgtaatgc agacaccgct ggcgctacgc 780
tttgtagtag atacttctgg tcagtagtag gtactttctg tgtgtactaa gntctcaaca 840
aaagcaccta ctttttatgt aaaagaaaat gctacaaagt aatgactatt tactgnagca 900
ataacatcta ctacgtttat gcattccgcc catttcttga gtgaattatt aaatgtgact 960
tctattttat aaaaaaaatt ttagggtttt aaattaaagg ttccctttta ccgaaagttt 1020
taacaaattt ttttttttc 1039
<210>640
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>640
cgtccgtgat aacaaaatca atcaaagag 29
<210>641
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>641
ctactgacca gaagtatcta ctacaaagcg tagc 34
<210>642
<211>798
<212>DNA
<213>Diabrotica virgifera
<400>642
cgtccgtgat aacaaaatca atcaaagagt tgtttattaa atagtattga tagtgtattt 60
gaaaaataat aatttattta aggcgtacaa ttaataaaaa gttatttatt gtttatatat 120
tatttatgga aaatccaagt atttcaagtc attaaaattc aaataaaagt attattttat 180
aagagtttgt tccgataacc gtaaataggt atgagtttag ttataaagta aagtgcccat 240
ggtgtcataa aatgtagtaa atgctaatgc ttcaagtacg tactacattt ttgaagattt 300
cactgcactt aaaaagcatt tgcctttctc cgcagtattt gctactattt accagcctac 360
atagaagaat gtactacgct tttgaagtat atgcttgttt agtagtattt tgcttcagtt 420
taagtgaagt tggtgggtgg tcgtcttcgg cgtaggtatt tttttgttac aatatggcag 480
catttatgaa tgtgtgtcat agaaaaattt acaaactaag aagaagattc ttaatttttg 540
gggtcattct tttatcaaat aaaatttaat aattgttaag aagattaaca aataacaata 600
attgttcatt tttatcctcg cgtaactctt tgtcgcttcg gatctgagtc actcattttt 660
actcatgtac aattctaata atttggtacg taaaaatgtg aatttacaaa tcacaagcac 720
atggaaaact aattccatca cgattggtgt aatgcagaca cggctggcac tacgctttgt 780
agtagatact tctggtca 798
<210>643
<211>1035
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(790)..(857)
<223〉n=a, c, g or t/u
<400>643
ctaataactg acaaaataac gcaaaagatg gaaaacatat aagttgtgag ataaggggaa 60
aagagactgg tagagatgct aaatttagtg ataaaagcct atgaacttgc attctacttg 120
gtgtttccca cctttagaca tatcagagct atatgtcaac taaaactgtc actgtcacag 180
tgtcagttaa caaacaagtc caatatgtct aaaggtggga aacagcagat agaatgtgga 240
tttataggtt ttatcactgg atttcgcacc tctactagtt taattccttt ttatctcaca 300
acttaatatg ttattagcat gctcatcact gtatactgac taactttttt tgttttttaa 360
cctcaccaaa ccttttttat tcgtatctgt atatttatcg aagttcaaat gtattttttt 420
tattcttcca aatgagccag aaacttgaca aaaaaacaat tttctgaatc ccttcgaata 480
aaattctttt taagtttatc tcatcggaat aaaaaatacc ttttctctct tggtaatttt 540
tcgaaaaatg cttccttttc acgttgtttg ctattttttg ttaaagaaat gccttaatta 600
gcgatttttg ggattttttc ccaaaaacta ctcaatgaat tataattcta caaaaggctt 660
tataatcctt aaaccctcaa gtataagtaa gaatattttg acaaggacac atggtttata 720
tctcgctgaa aacatggagt caaaaattca tctaaaatag gcccttcaga cagtctaccg 780
ctgccatgtn gcctaagtgn tggacagtgg gttgcagaaa aacgggcaca tgtcacataa 840
atatttgtat aaatttnaaa ctatcgtttg agcaagatag aagccactta tccttgtcaa 900
atattaataa taaggtttta agatataaag tttttatata ctacatttca tttagttgtt 960
tcttagaaaa aaatcgcaat aactcaaaat tcgtccctga aaatttttac taaatgattc 1020
cgaaaaatgt ttttt 1035
<210>644
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>644
gttgtgagat aaggggaaaa gagactggta g 31
<210>645
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>645
gacaaggata agtggcttct atcttgctca 30
<210>646
<211>853
<212>DNA
<213>Diabrotica virgifera
<400> 646
gttgtgagat aaggggaaaa gagactggta gggatgctaa atttagtgat aaaaacctat 60
aaacttgcat tctacttaat gtttcccacc tttagacata tcagagctat atgtcaacta 120
aaactgtcac tgtcacagtg tcagttaaca aacaagtcca atatgtctaa aggtgggaaa 180
caacagatag aatgtgaatt tataggtttt atcactaaat ttcgcacctc tactagttta 240
attccttttt atctcacaac ttaatatgtt attagcatgc tcatcactgt atactgacta 300
attttttttg ttttttagcc tcaccaaact ttttttattc gtatctgtat atttatcgaa 360
gttcaaatgt atttttttta ttcttccaag tgagccagaa acttgacaaa aaaacaattt 420
tctgaatccc ttcgaataaa attcttttta agtttatctc atcggaataa ataatacctt 480
ttctctcttg gtaatttttc gaaaaatgct tccttttcac gttgtttgct attttttgtt 540
aaagaaatgc cttaattagc gatttttggg attttttccc aaaaactact caatgaattg 600
taattctaca aaaagcttta taatccttaa accctcaagt ataagtaaga atattttgac 660
agggacacat ggtttatatc tcgctgaaaa catggagtca aaaattcatc taaaataggc 720
ccttcagaca gtctaccgct gccatgtgcc taagtgtgga cagtggttgc agaaaaacgg 780
gcacatgtca cataaatatt tgtataaatt taaaactatc gtttgagcaa gatagaagcc 840
acttatcctt gtc 853
<210>647
<211>1017
<212>DNA
<213>Diabrotica virgifera
<400>647
cgaactattt ttggtcccag aatgtgtgat ttagtttgtg acctgtattt ttgttacacc 60
ctgtatatga gatacaaatg aatcgcgatg attttttcta actagcgatt tcggtatatg 120
aatctgaatc ctgacagatg taaacataga ctaaataaac tacactcaga gaaaaaaatg 180
atgtgaaata aaattattcg gaggtagata agtgaaaaaa tacgaacgaa cagtaggaaa 240
ttaaaggcct tggggaaatg tggataaggt ctgaaatgac aggctgcgtt ctgttgatag 300
gtttgctctt atttaaaaaa tgtgaaaaat tcattattac atcagcaatt tatccctttc 360
ttgagtttat ggaacttatc agtttttcta aattaagcgt ttcaaatcaa attttttagg 420
aagtgttttt aaagggacga ttattcttta gtttttaaaa tgcgttttat ccaatgttgc 480
ctacttctta aatgtatata acaataaaag caataccatt ttggatgtta cataggttgt 540
taataaacag atgaaaaggt gtgtttgtct aagaacaggt atatatttgc aatgatatag 600
agattactgt agttaaagaa actatgcaaa agattagagg tgatagtgga tacagttgat 660
agctaataaa tcaataattc tatacattta tcttcgatta aataattatg ttattgtggt 720
tttcatggaa actattaaac tattttaatt aatgacgaag gtagaatacc ttaaaacttc 780
tccatggctc tgtcagaaga tatgaagtgt tcatttatta ataagtttcc tagttggaag 840
ggatttctaa ctttgtaatt ataaaaaatt ttttaaaaaa tttcttctta tttatctgga 900
gggttttttg aatccaccgc tggtaccatt attttttaac aaataaatgg taaaaacaaa 960
aattttatgg gaaaattttc ttacgggggg ggctttcaca ccaggaaatt tgttttt 1017
<210>648
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>648
ggtcccagaa tgtgtgattt agtttgtg 28
<210>649
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>649
gaacacttca tatcttctga cagagccatg 30
<210>650
<211>806
<212>DNA
<213>Diabrotica virgifera
<400>650
gtcccagaat gtgtgattta gtttgtgacc tgtatttttg ttacaccctg tatatgagat 60
acaaatgaat cgcgatgatt ttttctaact agcgatttcg gtatatgaat ctgaatcctg 120
acatatgtaa acatagacta aataaactac actcagagaa aaaaatgatg tgaaataaaa 180
ttattcggag gtagataagt gaaaaaatac gaacgaacag taggaaatta aaggccttgg 240
ggaaatgtgg ataaggtctg aaatgacagg ctgcgctctg ttgataggtt tgctcttatt 300
taaaaaatgt gaaaaattca ttattacatc agcaatttat ctctgggccc tttcttgagt 360
ttatggaact tatcagtttt tctaaattaa gcgtttcaaa tcaaattttt taggaagtgt 420
ttttaaaggg acgattattc tttagttttt aaaatgcgtt ttatccaatg ttgcctactt 480
cttaaatgta tataacaata aaagcaatac cattttggat gttacatagg ttgttaataa 540
acagatgaaa aggcgtgttt gtctaagaac aggtatatat ttgcaatgat atagagatta 600
ctgtagttaa agaaactatg caaaagatta gaggtgatag tggatacagt tgatagctaa 660
taaatcaata attctataca tttatcttcg attaaataat tatgttattg tggtttcaat 720
ggaaactatt aaactatttt aattaatgac gaaggtagaa taccttaaaa cttctccatg 780
gctctgtcag aagatatgaa gtgttc 806
<210>651
<211>1013
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(657)
<223〉n=a, c, g or t/u
<400>651
cgaccgcaca aaaaaattgt taaaaggaaa ttgtaatata ttgtaaatgc gatttatttg 60
gaacaatttc agttcctaac atttttgtca caaagttaaa aatggcggag atattgaaca 120
aaaacaactg ctagacgacc aaaaaaatga aatagataaa aattatataa aatttaattg 180
tctccatttt tgtataggta catttttgtc gtaaaactaa taataaacgc gataactcaa 240
taattctgct gttacttttt tcccccatta ctcggaaaat atcgaccgca caaaaaattt 300
gtaataaaag acattataga aaatcatatt ttcaacaatt tcagtcgtcg cactttttgt 360
cgaaaagttg aaaatgacgg agatattgag caaaaacggc tctcctttaa attcaacatg 420
gcggctaacg taacggcgga attcactcgc gatattaaat ttacactact attgacaccc 480
gtaaagatta gaaaaattaa attttggaca tctcggcatg caaggtcaaa gctaaagtcc 540
tgtattttgg ctatctgtag gaaaacatca aaataactta ttataatgct gtttaatgac 600
atttttgagc cccttatgtt gaaacattat tttttttaat tgatactttc tgataanata 660
tacaaattta ttaaaataaa caccaaatca ctgtgaaatt gctacaaatg atatttaaaa 720
cattttttat gttgcgcaga agctatgcac caagtttttt ggatccaaat tgagtggttt 780
gaaatgaatc gcccataaat atttgagttt attgtcattg gaaactataa gcaagtatta 840
caatacgctt aatttttaat tttaaatagg gatttggact gactatgaat ctgatcaata 900
ttttttaaat aattgtaaaa tttgatgagt cattatccct gtgtgggtct gattgttttt 960
aatagaaact ttttttaaac agtgtaatat ttctagtaaa ataattttca acc 1013
<210>652
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>652
gatattgaac aaaaacaact gctagacgac c 31
<210>653
<211>29
<212>DNA
<213>Diabrotica virgifera
<400>653
gatcagattc atagtcagtc caaatccct 29
<210>654
<211>789
<212>DNA
<213>Diabrotica virgifera
<400>654
gatattgaac aaaaacaact gctagacgac caaaaaaatg aaatagataa aaattatata 60
aaatttaatt gtctccattt ttgtataggt acatttttgt cgtaaaacta ataataaacg 120
cgataactca ataattctgc tgttactttt ttcccccatt actcggaaaa tatcgaccgc 180
acaaaaaatt tgtaataaaa gacattatag aaaatcatat tttcaacaat ttcagtcgtc 240
gcactttttg tcgaaaagtt gaaaatgacg gagatattga gcaaaaacgg ctctccttta 300
aattcaacat ggcggctaac gtaacggcgg aattcactcg cgatattaaa tttacactac 360
tattgacacc cgtaaagatt agaaaaatta aattttggac atctcggcat gcaaggtcaa 420
agctaaagtc ctgtattttg gctatctgta ggaaaacatc aaaataactt attataatgc 480
tgtttaatga catttttgag ccccttatgt tgaaacatta ttttttttaa ttgatacttt 540
ctgataaaat atacaaattt attaaaataa acaccaaatc actgtgaaat tgctacaaat 600
gatatttaaa acatttttta tgttgcgcag aagctatgca ccaagttttt tggatccaaa 660
attgagtggt ttgaaatgaa atcgcccata aatatttgag tttattgtca ttggaaacta 720
taagcaagta ttacaatacg cttaattttt aattttaaat agggatttgg actgactatg 780
aatctgatc 789
<210>655
<211>1012
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(929)..(949)
<223〉n=a, c, g or t/u
<400>655
catatttctt taataataat caattgctga acagataatg cacacaaata taatgtacac 60
tttcaacagt gcaatgtaac acacaagtcg cctgctgaat cgcaaaataa attatgttat 120
ctaatgtatt gtttgaaaga ccactaagta ccgattcggc attccagatt gtaaggaaaa 180
atgcaataag tgcaataatg agttttacca tgaaaccgaa attcacaatc ttggaaggaa 240
aaattcacta agtgcaataa tacgttttaa tgagttttgc cctgaaacca aaattcacaa 300
taatgcactt agtgaattgt accataaatt atctcagcaa ttagaagggt tagagtccca 360
ggtgacttct ccagagctgg gcagtaccgt atcgagttca aattaataaa aatgtcaata 420
tctcaaaaaa gtgcacttag ttagttttac ctctaatagg acgatttgtc ttgttttatc 480
cattatgata cattcacttc attatgtaca agcttatcga tatttgggta agtgtcgact 540
aggcagagtc agttcaatta ctatttcttc cttgagtgtt atgcttccat catcagccaa 600
gttaatgttg tataagtatc atactccata tcatagacaa atattcttca gtcacaaaat 660
atggctcagt aatagaagaa gagaagatag aaggactgga tggcagagaa cttgagaaag 720
tgaaatacac actacaaaaa ctttcaatgc cagtcttttg agatacatat ttggtcatta 780
ggtgatattc agattttgcg atattacata ttgtaggact ggtatgggag gagattctac 840
aggcaaaaga ccactcggac gtcccagaat gtgatggaga gatacatcca agcagatctc 900
cgaaaaatga acatcccatt tgaccctang ntgatggaag accaacaant tggaagaaag 960
tgtacagtca gccaggaccc accccagggt gtagcgctac gtgatgatga tg 1012
<210>656
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>656
tcaacagtgc aatgtaacac acaagtcg 28
<210>657
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>657
tgtatctctc catcacattc tgggacg 27
<210>658
<211>825
<212>DNA
<213>Diabrotica virgifera
<400>658
tcaacagtgc aatgtaacac acaagtcgcc ttctgaatcg caaaataaat tatgttatcc 60
aatgtattgt ttgaaagacc actaagtacc gattcggcat tccagattgt aaggaaaaat 120
gcaataagtg caataatgag ttttaccatg aaaccgaaat tcacaatctt ggaaggaaaa 180
attcactaag tgcaataata cgttttaatg agttttgccc tgaaaccaaa attcacaata 240
atgcacttag tgaattgtac cataaattat ctcagcaatt agaagggtta gagtcccagg 300
tgacttctcc agagctgggc agtaccgtat cgagttcaaa ttaataaaaa tgtcaatatc 360
tcaaaaaagt gcacttagtt agttttacct ctaataggac gatttgtctt gttttatcca 420
ttatgataca ttcacttcat tatgtacaag cttatcgata tttgggtaag tgtcgactag 480
gcagagtcag ttcaattact atttcttcct tgagtgttat gcttccatca tcagccaagt 540
taatgttgta taagtatcat actccatatc atagacaaat attcttcagt cacaaaatat 600
ggctcagtaa tagaagaaga gaagatagaa ggactggatg gcagagaact tgagaaagtg 660
aaatacacac tacaaaaact ttcaatgcca gtcttttgag atacatattt ggtcattagg 720
tgatattcag attttgcgat attacatatt gtaggactgg tatgggagga gattcctaca 780
ggcaaaagac cactcggacg tcccagaatg tgatggagag ataca 825
<210>659
<211>990
<212>DNA
<213>Diabrotica virgifera
<400>659
atgatacaat ttactattca tgcttcattc attcatgcta ttctttagag cattccacag 60
tgatctgtta aaatctagac gtcacacgaa gaactggaat tttccaagag tatcgaacaa 120
caaaatatcc aaatgtaacc tcaaaatagt atcattcgct tatacaaaac aatgctataa 180
tatgatcctt gctacataaa ctcactaatc acagttaagg ggggaggggt atggtttgac 240
atcagcattt cgagcacatt tttgtgaatt ttttgaatct atattagaat tatttttaaa 300
ttaaataaat agattcagta gagataggcg ttacctcacg aaatatctaa agaaagtctg 360
caaaatttca ggtggatcgg taaaatagtt ttggagttac aatatccacc acctttgaaa 420
aaagcagttt tgagaaaaat gcgttcaaag ttttgaaaac tttattttca attttatttt 480
tgtttgtcaa atcgtaaagt aatgcacacc gaaatatgtt tttgcatcgc ggagtaattt 540
acaaaagggg aacagctgtt gaacgtttct aactacgctc aagcacgctg tagcgaagct 600
gccgcaaagc gagtcgaagg tagggatatt tacttgctgt atctctggta attttactcc 660
aatcaatctg aaattttcgg agagtagtct tgaagttaat tttaaaattt caaaccgttt 720
caacctcccc ccttaatcac aaaaccttca actgtgttat tcacttcact tcaaatcgag 780
ttatacctat aacactctac tggaaagatt catactctat gtgttgtcac gttctagtat 840
ttcataaata ttattaaaag cgcttaaaat ttcagctaga tggacgaaat ttactttttt 900
agatccctag tttttcaaat tttacgtgct atattttttc tgcgtacgat atacctcctc 960
gcacattata ggtactggag ggaaaggtta 990
<210>660
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>660
agagcattcc acagtgatct gttaaaatct ag 32
<210>661
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>661
cgatttgaag tgaagtgaat aacacagttg a 31
<210>662
<211>688
<212>DNA
<213>Diabrotica virgifera
<400>662
agagcattcc acagtgatct gttaaaatct agatgtcaca cgaagaactg gaattttcca 60
agagtatcga acaacaaaat atccaaatgt aacctcaaaa tagtatcatt cgcttataca 120
gaacaatgct ataatatgat ccttgctaca taaactcact aattacagtt aaggggggaa 180
gggtatggtt tgaaatcaac atttcgagcc catttttgtg aattatttag agttagtgtt 240
acctcacgaa atatctaaag aaagtctgtg caaaatttca ggtgratcgg taaaatagtt 300
ttggagttac aatatcyacc acctttgaaa aaagcagttt tgagaaaaat gckttcaaag 360
ttttgaaaac tttattttca attttatttt tgtytgtyaa atcgtaaagt ratgcacacc 420
gaaatatgtt tttgmatcgc ggagtaattt acaaaagggg aacagctgtt gaacgtttct 480
aactacgctc aagcacgctg tagcgaagct gccgcaawgc gagtcgaagg tagggatatt 540
yacttrctkt atctctggta attttactcc aatcaatctg aaattttcrg agagtagtct 600
traagttaat tttaaaattt caaaccgttt caacctcccc ccttaatcac aaaascttca 660
actgtgttat tcacttcact tcaaatcg 688
<210>663
<211>997
<212>DNA
<213>Diabrotica virgifera
<400>663
caaatctgta atgtcaatac cgcaactgtc aaataaatgt taccaattta tgccaattta 60
tacctttgtt caatcgcagt tagagtgtaa tccgaacaag tgtgctttat aaaaacgctt 120
tatattccac ttatacagat taaacgaaac aagttagggt atatttcttt atatttaaat 180
taatagaaat ctttcaatat tatttctacg cgtatataat aaaatatgtc tagtggctgt 240
aattccagtg taccctgcta aacgattcta aaaaggaaca cacctacgac ttaaataatc 300
gtgtgacgtc acgtgctata acgcggatga cgtgcaacgg tgtctatatt gtacggactg 360
tattgaatgt gttaagtgtg tttaatattt aatattccga taactaatcg aataaaggat 420
tacagattac ggtaaatatt tattaaacat atatgattac aaacttttgt acatgtttta 480
ttttagaccg tgacaagtgc tctgatctga ttgacgttga caatgtgaca aatacactga 540
cacctaaagg tgtgttcaca ctatacacta aacaaagtgt tcaccaggtt tcgcgtggta 600
aattgaaaac aaaacgtgac tttctgttat gcaagccata tttttgttga attcaacatt 660
ttattggtca ccatttatga ttagttaact agtaatttgt tatgttgaat ttggttatgc 720
gatatccgat aagaacttag cctctccgcc ctagtgcgtc actattgcaa gggatatata 780
ccatcgtata atacattctt gtagaccgcc tatgtcaaaa tctgagccaa atcgggactt 840
gtaatttttt taatttatta agaaaaacat acaatcccca tccacccccg cagggttatt 900
aaaaggagta gtaacgtacc caaaaattcc gttttaataa taataaaaaa gagggaatat 960
aaaaagtaaa atatttttaa aaaaatttaa acccctt 997
<210>664
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>664
caatcgcagt tagagtgtaa tccgaaca 28
<210>665
<211>31
<212>DNA
<213>Diabrotica virgifera
<400>665
gtacgttact actcctttta ataaccctgc g 31
<210>666
<211>848
<212>DNA
<213>Diabrotica virgifera
<400>666
caatcgcagt tagagtgtaa tccgaacaag tgtgctttat aaaaacgctt tatattccac 60
ttatacaaat taaacgaaac aagttagggt atatttcttt atatttaaat taatagaaat 120
ctttcaatat tatttctacg cgtatataat aaaatatgtc tagtggctgt aattccagtg 180
taccctgcta aacgattcta aaaaggaaca cacctacgac ttaaataatc gtgtgacgtc 240
acgtgctata acgcggatga cgtgcaacgg tgtctatatt gtacggactg tattgaatgt 300
gttaagtgtg tttaatattt aatattccga taactaatcg aataaaggat tacagattac 360
ggtaaatatt tattaaacat atatgattac aaacttttgt acatgtttta ttttagaccg 420
tgacaagtgc tctgatctga ttgacgttga caatgtgaca aatacactga cacctaaagg 480
tgtgttcaca ctatacacta aacaaagtgt tcaccaggtt tcgcgtggta aattgaaaac 540
aaaacgtgac tttctgttat gcaagccata tttttgttga attcaacatt ttattggtca 600
acatttatga ttagttaact agtaatttgt tatgttgaat ttggttatgc gatatccgat 660
aagaacttag cctctccgcc ctagtgcgtc actattgcaa gggaaatata ccatcgtata 720
atacattctt gtagaccgcc tatgtcaaaa tctgagccaa atcggacttg taattttttt 780
aatttattta gaaaaacata caatccacat caaccacgca gggttattaa aaggagtagt 840
aaccgtac 848
<210>667
<211>996
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(744)
<223〉n=a, c, g or t/u
<400>667
atttaatcag tcgtaaaaaa atatacagtt cctctaattg gcttagctca cgctgggtta 60
agctgatttc aatagccatt agactaatag tatttatgaa tgactgttta attgacttca 120
aacgatttcc ataaacttaa ttacaattta cgccgttatt aatcaaaact catagttggc 180
gcaacgattt gaaattgttc taatttcgag gcgaatcatg taaattttat tgcgtttgag 240
tgacattgta ttttccataa tatgcgtgcg gtgtccttta cattgcaaac tatttgtatt 300
tgagtagtat cgttaaattt cgagaggtaa aatattgaat agctggtata ataattaaaa 360
gtacaataga ttaacaatac tttctacctg taccggaaac ttaccacacc attcaaatac 420
aaatgactgt aagcttaaaa tttttctgga atattttaat ggcaactata agtagtttcc 480
gcggtgaaac accttgtatg catttaaatg gtttcggctc acgtcagcaa tgaaagatgc 540
tcattctttt cagtataaaa tccaaaacta atttgagact gaatcgagtt gggtgataaa 600
gttgtaatac ggtgcgatat ggagtctggc gtaagatttt ttgtacacgc tgtatcgaca 660
caaattgtgc agtatttaat gtaagatcat ccattcttcc gtatcttcca aaacttttta 720
aatatactac gtttaaaact ctanagttga ttttagtttc cccaaaacag caatactcgc 780
ggtttagttg agttgaaagt gtgatagaca ggttttagtt actatataaa tatttttttt 840
acgatttgta ttagttgtaa tatacaatga aagacggaat tgtttttcgt tgtgtataaa 900
actttgtgtg actttttgaa atgtacatag ttctagtata agtttgttgt gctgagccac 960
gagaagtatc tcggttggaa ttgttccttt tttttt 996
<210>668
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>668
acagttcctc taattggctt agctcacg 28
<210>669
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>669
cttctcgtgg ctcagcacaa caaac 25
<210>670
<211>949
<212>DNA
<213>Diabrotica virgifera
<400>670
acagttcctc taattggctt agctcacgct gggttaagct gatttcaata gccattagac 60
taatagtatt tatgaatgac tgtttaattg acttcaaacg atttccataa actttaatta 120
caatttacgc cgttattaat caaaactcat agttggcgca acgatttgaa attgttctaa 180
tttcgaggcg aatcatgtaa attttgttgc atttgggtga cattatattt tccataatat 240
gcgtgcagtg tcctttacat tgcaaactat ttgtatttga gtagtatcgt taaatttcga 300
gaggtaaaaa tattgaatag ctggtataat aattaaaagt acaatagatt aacaatactt 360
tctacctgta ccggaaactt accacaccat tcaaatacaa atgactgtaa taagcttaaa 420
atttttttct ggaatatttt aatggcaact ataagtagtt tccgcggtga aacaccttgt 480
atgcatttaa atggtttcgg ctcacgtcag caatgaaaga tgctcattct tttcagtata 540
aaatccaaaa ctaatttgag actgaatcga gttgggtgat aaagttgtaa tacggtgcga 600
tatggagtct ggcgtaagat tttttgtaca cgctgtatcg acacaaattg tgcagtattt 660
aatgtaagat catccattct tccgtatctt ccaaaacttt ttaaatatac tacgtttaaa 720
actctaaagt tgattttagt ttccccaaaa cagcaatact cgcggtttag ttgagttgaa 780
gttgtgatag acaggtttta gttactatat aaatattttt tttacgattt gtattagttg 840
taatatacaa tgaaagacgg aattgttttc cgttgtgtat aaaacttgtg ttgacttttt 900
gaaatgtaca tagttctagt ataagtttgt tgtgctgagc cacgagaag 949
<210>671
<211>991
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(906)..(921)
<223〉n=a, c, g or t/u
<400>671
attcgaactt cccagaagat tgaatggata aatgcaggta ctcaaatgtt tgcaacatgt 60
tctatcgatg cttcttgaag acgtagcttt attgtaataa aaaaatttta tgtaagttga 120
aacactatac aaaccttatt tattagatat ttaataaaca caaacattat gctgtttttc 180
tattactgtt atcagtattt tatcaatgta tattatgcct atgatcgatg attcatgata 240
gttgagttac agtaaaatta ttttagcaca gaaggaacgc agcgctgccg gctgtatttg 300
cttttctgtg gacattaatc aaatgcatta aaattaataa attatttttt tgaaaacggt 360
tgacttaaca aaaaaaattt attagacttt tttgctctaa atggtgcact tagcccatac 420
cttggaggaa cgcactattt tccgggacac cctgtatagt ttaaaaatta ttttctgttg 480
ctcaatcggt cattcgttcg tggaagtaga tacatcatgc attaattgaa agatctatcc 540
actggtggtt gtaacttaac gtccgcatca ttctgcgttt aattcaggtt ccaaaactga 600
catttaagtc caatattttt tgttcacgtt tggtacaaat attttttaga agggtatgcg 660
tccaagttct tacgagcttt gctgttgctg cctgctccta cgtcaaatgc tgaatttgca 720
tgaacactga accttacttt ccaaggaata tattaaataa tatcatttat ttaatacttt 780
tcgtagcaag ctaagtaatg ttaacgaaga gaattatgac tttgcttagc aaatacagag 840
tttttatttt atagccttga atttttgtta attttgatat ctatacgtat atattgtttt 900
atattngtac atgtactttg ngtaatagct gccgatattg ccatttttta taaaaataac 960
gagagcagag gtgtataaat aaatttttgg t 991
<210>672
<211>28
<212>DNA
<213>Diabrotica virgifera
<400>672
cttcccagaa gattgaatgg ataaatgc 28
<210>673
<211>30
<212>DNA
<213>Diabrotica virgifera
<400>673
gaaagtaagg ttcagtgttc atgcaaattc 30
<210>674
<211>733
<212>DNA
<213>Diabrotica virgifera
<400>674
cttcccagaa gattgaatgg ataaatgcag gtactcaaat gtttgcaaca tgttctatcg 60
atgcttcttg aagacgtagc tttattgtaa taaaaaaatt ttatgtaagt tgaaacacta 120
tacaaacctt atttattaga tatttaataa acacaaacat tatgctgttt ttctattact 180
gttatcagta ttttatcaat gtatattatg cctatgatcg atgattcatg atagttgagt 240
tacagtaaaa ttattttagc acagaaggaa cgcagcgctg ccggctgtat ttgcttttct 300
gtggacatta atcaaatgca ttaaaattaa taaattattt ttttgaaaac ggttgactta 360
acaaaaaagt ttattagact tttttgctct aaatggtgca cttagcccat accttggagg 420
ggcgcactgt tttcagggac accctgtata gtttaaaaat tattttctgt tgctcaatcg 480
gtcattcgtt cgtggaagta gatacatcat gcattaattg aaagatctat ccactggtgg 540
ttgtaactta acgtccgcat cattctgcgt ttaattcagg ttccaaaact gacatttaag 600
tccaatattt tttgttcacg tttggtacaa atatttttta gaagggtatg cgtccaagtt 660
cttacgagct ttgctgttgc tgcctgctcc tacgtcaaat gctgaatttg catgaacact 720
gaaccttact ttc 733
<210>675
<211>990
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(825)..(935)
<223〉n=a, c, g or t/u
<400>675
aacgaatgcc aaacctatga gggaacttac acattttttt attacgtaat attattcagt 60
ttcctttaaa aataatattt ccaaactttc acgcggtaaa acctcataat aacttagaag 120
ataatttaaa atctatatat ttttttctgt tttctggcct tggtttagaa gaacccttag 180
ccaatgtaaa atagttcaaa ctatcaaaaa cgcttgtgac gttacattac tgtattttct 240
actgacgttt atagtgtcta atttaaaatt atatacaatt ttgtttactt tgttggtgca 300
gaatgtacat gcacaactat atgacgtcaa tatgcgtttt ggaccacctg ttttaatttg 360
aatttttaat cgtctttagg ggccaaacga aagacaaaca aaactttttt tatctttgat 420
acatgtttta aattatgttc tgttgtgatt tataacattt ttttcgaatt taaaaattta 480
tgcaagttcc ctatttacac aaacaattta atatttccaa caagagcatt atttaaaatt 540
ccttgttccc gctaagggat agggacttca catcctagca gggggcgtta agacgctaga 600
aaaccggaag ataagtatag ctatcacaga agatatcggg gaagaacagg tatgtacatc 660
ggttatgact ataaatatct gaaaaataca tacatacttg taaagtaaac accactctta 720
ccattttcta atattatcta agtattgact ggacttttct atctgcctca tgaataatga 780
ggtaaattag aatttcattt attttgcata aaaaatacat gtaanttccg ttatcataaa 840
ataattatag gaatatctac cgatattatt actctggggt ccgtatatct atcctttttt 900
tctacttttc tactatggnn atgagaaata aattnaaatt ttaaaaacaa tttggtggta 960
ttccctagag gaaatataaa attttatcta 990
<210>676
<211>32
<212>DNA
<213>Diabrotica virgifera
<400>676
agaagaaccc ttagccaatg taaaatagtt ca 32
<210>677
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>677
gatagatata cggaccccag agtaataata tcg 33
<210>678
<211>729
<212>DNA
<213>Diabrotica virgifera
<400>678
agaagaaccc ttagccaatg taaaatagtt caaactatca aaaacgcttg tgacgttaca 60
ttactgtatt ttctactgac gtttatagtg tctaatttaa aattatatac aattttgttt 120
actttgttgg tgcagaatgt acatgcacaa ctatatgacg tcaatatgcg ttttggacca 180
cctgttttaa tttgaatttt taatcgtctt taggggccaa acgaaagaca aacaaaactt 240
tttttatctt tgatacatgt tttaaattat gttctgttgt gatttataac atttttttcg 300
aatttaaaaa tttatgcaag ttccctattt acacaaacaa tttaatattt ccaacaagag 360
cattatttaa aattccttgt tcccgctaag ggatagggac ttcacatcct agcagggggc 420
gttaagacgc tagaaaaccg gaagataagt atagctatca cagaagatat cggggaagaa 480
caggtatgta catcggttat gactataaat atctgaaaaa tacataatac atacttgtaa 540
agtaaacacc actcttacca ttttctaata ttatctaagt attgactgga cttttctatc 600
tgcctcatga ataatgaggt aaattagaat ttcatttatt ttgcataaaa aatacatgta 660
attccgttat cataaaataa ttataggaat atctaccgat attattactc tggggtccgt 720
atatctatc 729
<210>679
<211>988
<212>DNA
<213>Diabrotica virgifera
<400>679
cggacgcgtg ggtgttccgg accattttga gtgggaggat agctcaagtg ttgttgtttg 60
ggttattttc gggcaatttc tgcagggggg tttgagtcac ctctcaacgt ccatctcaaa 120
acagatgcgc cctggactaa aacaatttta agtactctca ttgttaaaaa gttgattcac 180
cacattttca taacgatttt tagggcggct gtacacggac tgctgaggtc gtttatcact 240
gagcgacata cacggactgc tcgagcgatc gttgtagact tctggagcgg tccattgttg 300
actacctgag ttgtcccttg tcgcattgca accgctctcg atctgtcgat agcacgatgg 360
aatttcatta tgctattgac agcttgaagc ggtcttgact gctcgagctg tcgtgtgtat 420
ggcaacgaat atacaattat aattcaccgc gcaaacgctg cttcaaaaag tcgacctcaa 480
ctgcttgaag atgtccgtgt acggccgatc ttggggtatc ttttttactc ttatcgggaa 540
tatttaagaa ccgaaatccc taatgttttc cctatttgtt ccagaatgat atacgtgtta 600
atttccaact gagacttgac ggccagcacg accgtacgac aagacatttt cgaacagtaa 660
aatcattagt tttagtaaca aatacaaaga cagatgggaa ttcggttctc gatattatgc 720
agagtattta cctgatgatg aacacttatt ggaggataga aacgcataat ttgcagaact 780
gacttaccca tgtaatggac aggtatgatg gaaacgtatg tactttaatg ttttgttagt 840
atttttacga gagaagctaa gtaggtttgt gaagaattag ttatttgttg tactcgatac 900
tttttattaa ctcattaatt aattaaatcc tacaaataca caacgtaaga agctacatga 960
gcgcgcagca aaaatttttt tttttttt 988
<210>680
<211>25
<212>DNA
<213>Diabrotica virgifera
<400>680
ggaccatttt gagtgggagg atagc 25
<210>681
<211>33
<212>DNA
<213>Diabrotica virgifera
<400>681
ctaattcttc acaaacctac ttagcttctc tcg 33
<210>682
<211>862
<212>DNA
<213>Diabrotica virgifera
<400>682
ggaccatttt gagtgggagg atagctcaag tgttgttgtt tgagttattt tcgggcaatt 60
tctgcaggga agtttgggtc acctctcaac gtccacctca aaacagatgc gccctggact 120
aaaacaattt taagtactct cattgttaaa aagttgattc accacatttt cataacgatt 180
tttagggcgg ctgtacacgg actgctgagg tcgtttatca ctgagcgaca tacacggact 240
gctcgagcga tcgttgtaga cttctggagc ggtccattgt tgactacctg agttgtccct 300
tgtcgcattg caaccgctct cgatctgtcg atagcacgat ggaatttcat tatgctattg 360
acagcttgaa gcggtcttga ctgctcgagc tgtcgtgtgt atggcaacga atatacaatt 420
ataattcacc gcgcaaacgc tgcttcaaaa agtcgacctc aactgcttga agatgtccgt 480
gtacggccga tcttggggta tcttttttac tcttatcggg aatatttaag aaccgaaatc 540
cctaatgttt tccctatttg ttccagaatg atatacgtgt taatttccaa ctgagacttg 600
acggccagca cgaccgtacg acaagacatt ttcgaacagt aaaatcatta gttttagtaa 660
caaatacaaa gacagatggg aattcggttc tcgatattat gcagagtatt tacctgatga 720
tgaacactta ttggaggata gaaacgcata atttgcagaa ctgacttacc catgtaatgg 780
acaggtatga tggaaacgta tgtactttaa tgttttgtta gtatttttac gagagaagct 840
aagtaagttt gtgaagaatt ag 862
<210>683
<211>978
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(876)
<223〉n=a, c, g or t/u
<400>683
aaaagaaata gaacgtaata atgaaacaac aacaaaaaca acctctggaa cataagcatc 60
tactattaat ttgatgcagc taaggaaata atatgggcaa caagtaaaaa agcctcctca 120
aacaaacaga cagagtggtg gtgacaaaaa aagaggtggc atagataggt gtcttttagg 180
aaatatttgg aaaagaacga ccatacttat aataatacaa ctgtaaatgt gtaaaaaatc 240
gtattgattt tgctacttgt gtctattgtg tcattttatt agatcacaat atatataaac 300
tgttgaactc gaccgtaagc tgctttaaaa acaataaaat gttttgaaat gtagtaaata 360
tgtcatcgaa taagtgacgt catagctaag tgtagacagt attgccaaaa taatttgtat 420
acataatggt tcttctattt atacaaaact ttaatctttt taatttcttc tctttgtatt 480
tgactattaa caaagtgaaa cgaattttgc aattatttta gtatattaac gtagaaaaag 540
atcaataatt gactctagag acttttaatt cttaacaaaa ttaaacaatt atattaaaca 600
ccaaaactac tctgatcaag tcatggtctc tgcatattat ttatacctta gagctacact 660
atttagaaca aaatgttaat ataaacattt tttaataggt attttgagat agaaagtgta 720
tgtgaaaatt ctgtgtttat aatgcaaaac cccatacacg gcttaggaat aagtttatgt 780
aggctaaaca cagacgaaat tagttatatt tatggaaact gagactacga cgtagttcga 840
cgaaatataa acagtctacg ggatgtccta tcgtgntata gccgaatcaa atttaatata 900
agggtagtta tgactaaaaa attgaaaacc gtacatgatc atatcacagt ttatggcata 960
cattatggtc aacacatg 978
<210>684
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>684
agcctcctca aacaaacaga cagagtg 27
<210>685
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>685
gaccataatg tatgccataa actgtgatat gatc 34
<210>686
<211>857
<212>DNA
<213>Diabrotica virgifera
<400>686
agcctcctca aacaaacaga cagagtggtt gtgacaaaaa aagaggtggc atagataggt 60
gtcttttacg aaatttggaa aaggacgacc atacttataa tacagctgta aatgtgtaaa 120
aaatcgtatt cattttgcta tttgtgtcaa atgtgtcatt ttattggatc acaatatata 180
taaactgttg aactcaaccg taagctgctt taaaaacaat caaatgtttt gaaatgtagt 240
aaatatgtca tcgaataagt gacgtcatag ctaagcgtat acagtgttgc caaataattt 300
gtatacataa tggttcttct atttatacta aactttaatc tttttaattt cttctctttt 360
cgtatttgag tattaaccaa gtgaaacgaa ttttgcaatt attttagtgt attaacgtag 420
aaaaagacca ataattgact ctagagactt tcaattctta acaaaattag acaattatat 480
taaacaccaa aactaatctg atcaagtcat gatctcgctg catattattt ataccttaga 540
gctatactat ttagaacaaa atgttaatat aaacattttt aataggtatt ttgagataga 600
aagtgtatgt gaaattctgt gtttataatg caaaacccat tatacggctt aggaataagg 660
taaggtaggc taaacacaga cgaaattagt tatatttatg ggaactgaga ctacgacgta 720
gttcgacgaa atataaacag tctacgggat gtcatatcgt ggtatagccg aatcaaaatt 780
taatataagg gtagttatga ctaaaaaatt gaaaacgtta catgatcata tcacagttta 840
tggcatacat tatggtc 857
<210>687
<211>977
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(730)..(938)
<223〉n=a, c, g or t/u
<400>687
tatgaataaa aatagcattt ttatatacaa taacctggag acgggtcaca ggcttcatgt 60
gcaacactta acaccttcag ctccaggcca atatctgata tttgccacat gtgtcacttt 120
tatacagtca ttggaaaatt gttgaattgt aaacacggta gccgtgtccg tgtcggtggc 180
acctgattga taagaggatg aacacgggag ccgtgtcggc agacttaaag tgttttgaga 240
aaaagtttgt tttaataatt aatatttcgt cctattagag gtaaaactca ctaactacac 300
ttttcagaaa gtggagaaaa atcgatttaa aggtacaaat tgttttttga attcacctga 360
cttgaatatt ggaatttttt aaatgcaact ttaaagaata aataaaaaca gatattttgt 420
gccatatttc gtcacaggaa ctatgataca atcaatatta gatcaatttt tgtacttaat 480
gagtttttcc atgaacaaaa ttattggata ttgatatcct atcagaggta aaactcacta 540
actacacttt gtacttgatg agtttttcct tgaacacaat tattggatat tgatatccta 600
tcagaggtaa aactctttaa ctacactttg tacttgatga gtttttcctt gaacaccatt 660
attggatatt gagaacttaa tgaatttgtc tccataaaat ttcgctgact tacaacaaac 720
gaactatcan aattaacagg caattatgtc acaggaacta tgatataatc atgatacaat 780
caatgttaga tcaatttttg tacttaatga gtttttccat gaacacaant attggatatt 840
gatatcctat cagaggtaaa actcgctaac tacactttgt attttgatga gtttttcctt 900
gaaacacatt attgaatatt gatatcccta tcagaggnta aaactcacta actacacttt 960
gtactttgat gagtttt 977
<210>688
<211>23
<212>DNA
<213>Diabrotica virgifera
<400>688
ggagacgggt cacaggcttc atg 23
<210>689
<211>34
<212>DNA
<213>Diabrotica virgifera
<400>689
caaagtgtag ttagcgagtt ttacctctga tagg 34
<210>690
<211>509
<212>DNA
<213>Diabrotica virgifera
<400>690
ggagacgggt cacaggcttc atgtgcaaca cttaacacct tcagctccag gccaatatct 60
gatatttgcc acatgtgtca cttttataca gtcattggaa aattgttgaa ttgtaaacac 120
ggtagccgtg tcggtggcac ctgattgata agagaatgaa cacgggagcc gtgtcggcag 180
acttgaaagt gttttgagga aaagtttgtt ttaataatca atatttcgtc ctattagagg 240
taacactcac taactacact tttcagaaag gggagaaaaa tcgatttaaa ggtacaaatt 300
gttctttaaa ttcacctgac ttgaatattg gaattttttt aatgcaactt aaaagaataa 360
ataaaaacag atatttgagc catagttcgt cacaggaact atgatacaat caatattaga 420
taaatttttg tacttaatga gtttttccat gaacacagtt attggatatt gatatcctat 480
cagaggtaaa actcgctaac tacactttg 509
<210>691
<211>962
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(836)..(933)
<223〉n=a, c, g or t/u
<400>691
tgtcttttta gtttacttct cttggtttaa aaacaaagct tagctattta tgactgcaat 60
tttgatatcg tgtgtattag aaactttagt ttttaaccac gatatttaaa tattgtggac 120
tttgaacaat taaaaaaaaa tgtacttggt cactttctgt tggcgaaaaa aattagaaat 180
ttgacttggt caatataagc gacaccgtat taggaaatta tatttattaa ctacggtctg 240
tacatagaaa aaaattaaaa tctaatcagt ttctgtgtcg tcgctttcag aagaagctgg 300
ttacggtatg aaaacttttt ttgactactg gaatcgattt ataccactca tggaactctt 360
gcggaataat tttatttcta cgcaaggagg ctgtttttat tttgctctgg tatagacaaa 420
agttttttgt ataacattgg aatgttctta ggaataacag ctggtctgac cttgccacat 480
actcaagagt aacgcattta attttaacca cgatattttg tttccatttt aatcttagtc 540
tctgtttttt aagaacatct gtgcttaaga tcgaaaaagt ctgaccgtaa ttcttcaact 600
ctgtaggcac cgctcttttc gttgcgtctt gtagaacgga ctagcttgaa aatattaaca 660
gatcgttcat tgtaaaaaat ggcaacattt tcattaacag actatatggc actgtgcatt 720
gagtttaccg tttacctcca tgtacgaatg tcctttctcc ataaaattat gctgcaaaat 780
cttagtgtgt gcgttacaac aacatacaaa ttaatgcggc aatgaacgaa tataanaatc 840
tctgataagt cagaatataa actgatctct gtgatgcctt ttgatcatgt gattgcagan 900
gttttatccg ctttgatcat gctattccna ttncagagct tcccacgtga ccattaatct 960
ct 962
<210>692
<211>27
<212>DNA
<213>Diabrotica virgifera
<400>692
tgacttggtc aatataagcg acaccgt 27
<210>693
<211>35
<212>DNA
<213>Diabrotica virgifera
<400>693
gcatcacaga gatcagttta tattctgact tatca 35
<210>694
<211>697
<212>DNA
<213>Diabrotica virgifera
<400>694
tgacttggtc aatataagcg acaccgtatt aggaaattat atttattaac tacggtctgt 60
acatagaaaa aaattaaaat ctaatcagtt tctgtgtcgt cgctttcaga agaagctggt 120
tacggtatga aaactttttt tgactactgg aatcgattta taccactcat ggaactcttg 180
cggaataatt ttatttctac gcaaggaggc tgtttttatt ttgctctggt atagacaaaa 240
gttttttgta taacattgga atgttcttag gaataacagc tggtctgacc ttgccacata 300
ctcaagagta acgcatttaa ttttaaccac gatattttgt ttccatttta atcttagtct 360
ctgtttttta agaacatctg tgcttaagat cgaaaaagtc tgaccgtaat tcttcaactc 420
tgtaggcacc gctcttttcg ttgcgtcttg tagaacggac tagcttgaaa atattcaaca 480
gatcgttcat tgtaaaaaat ggcaacattt tcattaacag actatatggc actgtgcatt 540
gagtttaccg tttacctcca tgtacgaatg tcctttctcc ataaaattat gctgcaaaat 600
cttaatgtgt gtgttacaac aacatacaaa ttaatgcggc aatgaacgaa tataaaaatc 660
tctgataagt cagaatataa actgatctct gtgatgc 697
<210>695
<211>765
<212>DNA
<213>Diabrotica virgifera
<400>695
gttcaaaaca gaacaattac actacattta ttgattctaa caatctaata gatgttataa 60
gatactcgtt tatcttaatc tgtacaatta actttaattg ggtaatgtaa tatacaagat 120
taaaagggta aaagaaaaat ttaaaacaat ttacatgaag aaaaccaagt aatactgaaa 180
atataaacga tattaagcac ctgtatattt aaaaaagtat taaaacgaaa aaacttaata 240
gtaattggaa tggcgggaaa aatgtttaaa aagtatttaa taagcactgt accctcaccc 300
aaaaaaacta tacacatatt caacaattta cataatttat tttgtacagg ataatatcaa 360
aaaagagaaa acctatcttt agttactatc tttagtacgg ccatattaat attcacagaa 420
gtgagggata gaggccttat tattcttttt gataaatatc gctatatttt taaacttaca 480
ctgatgaaca aaataggaaa atttccttaa aaagatttaa tcttctaagt ttctgaaggc 540
ctgctgaata tcttcatata attgatcaaa atctgccttg attttagctt caccatcttt 600
tacgggatcc ttaaatttca tactgctaag ttgatataaa attccactca ttgaatctct 660
tattacgttc caagtgatct tattttctga ttgtgcggtt gattctacag cgtgtctcgc 720
catgtcgtac aaaccgatca tgtttctcaa cataccgaca gtttt 765
<210>696
<211>594
<212>DNA
<213>Diabrotica virgifera
<400>696
cttatttcga tttgactatg tgatggattg agaccttagg cagagcctta acgttgattg 60
ccgagtcaag acctgtaggc atctataaag gcgactatat acaagaatta tatgcaagat 120
atgatgatgt cagtgatgct ccacctccac catctcttcc tgattggtgt acagaaagtg 180
acgatggaca agggaatggc cttgacgatt tcgatgattt tactgaagat gcaagaaaac 240
gagtagcttc aacttcttca aataatgatg atacttcacc aaaagctaaa aagggtcgct 300
tctaggaagt cgcatttatg gagggagtac ctaacgttac ccactttgta gaggaacaag 360
cgacccgaga ttgcaaacga atggtgccta ggatgtgtag gtgtacacca aaatggtgtt 420
ccaggaagtc atgtccgtgt ccaatggata tgacaaacat tactcttcta aaagaccacc 480
cctacagagt ttcctgcaaa gcagacggcc atgaggcatt atgaagctta tcaacggaga 540
acacaatgtt tatctttttg acagagatga tgaagcttat taaggcggaa ggca 594
<210>697
<211>884
<212>DNA
<213>Diabrotica virgifera
<400>697
gcttgagtaa aaactgaaat catataaaag agataatttc tattgtgaac taatttttca 60
aaagtttcta cattaagtac atattcatta ctaaataatg gccgaaaaca aaaatccaga 120
ggatttggcc accgcaattc tccgtaagaa agatcgtcca aatagacttt tggtagaaga 180
agcagttaac gatgataact ccgtggttgc tttgtcacaa gcaaaaatgg atgaactaca 240
acttttcaga ggagacacag tcctactgaa gggcaagcga aggaaagaaa ctgtttgtat 300
agtattatct gatgatacat gtagcgatga aaaaattcgt atgaatagaa ataatttaag 360
agttaggctt tcagatgtag tttctatcca agcttgccct gatgtaaagt atggcaagag 420
aatacatgta cttcccatag atgatacagt ggaaggactc acaggaaatc tcttcgaagt 480
atacctgaaa ccctacttcc tggaggccta tcgaccaata cacaaagatg acgtattcgt 540
tgtacgtgga ggaatgagag ctgttgaatt caaagtcgtc gagaccgatc ccgctccgta 600
ctgtatcgtg gctccagaca ccgtcattca ttgtgatgga gatccaatca agcgcgaaga 660
ggaagaggaa gctcttaacg cagttggata cgacgaacat ccggaaggtt gtaaaaaaac 720
aggttgctca aatcaaagaa atgggtagag ttacccactg agacatccct agtctttttc 780
aggggtattg gaagtaaacc caccaaaagg tattttactt taccgggtcc accggggaac 840
tggtaaaacc cctccttgcc cccgcaagga acctaaacaa aact 884
<210>698
<211>642
<212>DNA
<213>Diabrotica virgifera
<400>698
gccctttttt tctgtccatt ttatgtcaca agtagggcta aaatgaagca aattgtaaca 60
aaccaaacgg taaaaattcc tgagggaatt acagtaacca ctaagtcaag ggtagtaact 120
gtaaaaggac cccgaggtaa tctgaagaga tccttcaaac atcttaccct ggacattcga 180
atgatcaacc ccaggttact gaaagtagag aaatggttcg gtaccaagaa ggaattagct 240
gctgtcagaa cagtatgctc tcatgttgaa aacatgttaa agggtgttac aaaaggatac 300
caatacaaga tgagagcagc atatgctcac tttcccatta actgtgtcac cactgaagga 360
aacacagtta tcgaaattag aaatttcttg ggagaaaaat acatcagaag agtaaagatg 420
gccccaggtg ttacagtagt aaactccacc aaacaaaagg atgaacttat cattgaagga 480
aactcattgg aggatgtttc aaagtcagct gcccttattc aacaatctac aacagttaaa 540
aataaggata tccgtaaatt cttagatggg ctttatgtat ctgaaaaaac aactgttgta 600
caagaagaat aacttgtatt tttgaaataa atttaagttt at 642
<210>699
<211>652
<212>DNA
<213>Diabrotica virgifera
<400>699
cacgttgaga ggtgcatttg cacgatgagt tccttaaaac ttcagaagag gctagcagcc 60
tctgttatgc gatgtggtaa aaagaaagta tggttggacc ctaatgaaat caacgaaatt 120
gccaacacta actcaagaca gaacatccgt aagttgataa aggatggtct tattattaag 180
aagcccgtag ctgtacattc ccgtgcccgt gttcgcaaaa acactgaagc ccgcaggaaa 240
ggaaggcact gcggttttgg taaaaggaag ggtactgcta atgcccgtac cccgcaaaag 300
gaattatgga ttcaacgcat gagagttttg cgtcgtctcc ttaaaaaata cagggaagct 360
aaaaaaattg acagacatct ataccactca ctctacatga aggccaaggg taacgtattc 420
aagaacaagc gtgtccttat ggaatacatc cacaagaaga aggcagagaa agcccgtgcc 480
aagatgttgg cagaccaggc caatgccaga aggatgaagg taaaacaggc tagagaaaga 540
cgtgaggaac gtatcgccac aaagaaacaa gaagttttgc agaactacat gagggaggat 600
gaagctgcgg ccactaagaa ataagttaat tgttttataa gatgactata tt 652
<210>700
<211>890
<212>DNA
<213>Diabrotica virgifera
<400>700
ggaaaaggaa gtgggggtga ataggccaaa caatgacaat ggttttagct attaaagatg 60
acgacaacaa gtttgatatg ttggtaagga actgtatggc tcacgatgga aaaagagctc 120
ccatacagtt agtcgaccaa agaggttgtg tcacaagacc aaaattgatg tccagattta 180
ctaagattaa aaactttggc gcaagcgctt cagtgttatc atatgcccac ttccaggcat 240
ttaaattccc tgactccatg gaagttcact tccagtgcac catccaaatc tgcagatatc 300
aatgtccaga tcagtgttca gattcttcag gacaacatct ccacggcttg cttgatttgg 360
tgcatggtcc acctgatact ggttatggtg ctcctccacc gctacctatc gaagcatatt 420
tacatcctgg gcgaccaagg gatgaaagga gatcaaagag agctctcgct gtcgacccgg 480
aaaaggaagt gggggtgaat aggattatta gggttgtatc tacaggagat ttgacattta 540
cacttgacga aaacagcaat agcacaactc cacccactat ggtctttccc gccaaggagg 600
aaattaacaa cggaggatta atatgtatga ctactccagg ttttgcagca accttagtag 660
ttttattagc tatattaata gtatcttgtc ttatgtcagc tttcctttgt gtcaaactaa 720
gaccatttgc tgaaaacaac tcgcaggtgt cataggatat gccaattcac agaaaacaaa 780
gtcaaggagc tgcttttact cgtaatatta gagcagactg aaaggggtta gatcgaaaag 840
aaaacggcta catgcttggt catataaatt aaaaatcttt cgacatatgg 890
<210>701
<211>888
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(775)
<223〉n=a, c, g or t/u
<400>701
cccacgcgtc cggcggctga taaaagccta atgattggag ctgatgtagc agttgcttac 60
attgatggat tcagagggtt tgctacggac tacaatataa cagctttaac accatgtgta 120
aaagtattag gccaatataa aggagtatgc aaggatgaaa tggtaggagg acaggatagc 180
aaccaaatga atacggcagc gagggaaaat ggtattagca taataactta cagaagatcc 240
ttaatttcac ctgatcctgg agataaagag tttccagcag agggttccat atacgccgta 300
tggggggtag gaaaactaga cgaaatgaaa gaacctgctt ttcatgatct ctactcaaag 360
actgatataa aaatggagat gacaccgaaa gaacctcaga ataactgtgt ctcttttacg 420
agatcgaaac ctgaacccaa agaaccttgg aagaaaggtc aaatattcga taaaactata 480
aggatattta agtcttatat tggtccatca ggggccaaaa ggggatacca agccattacc 540
ggccactcat ccacagcttt agcatggtac ataaacggtt tcctcagccc tgagatatgg 600
ctacgacgag gtctttcata tgcatttaaa gtatatggag gaaacaatcc acacagtgct 660
gaatattatc atccattgat aataacagat gaaccccacg gaggttttga tagacttact 720
gacgatgctc agtctaaaat aagagtcttg gctggtgttg aatattctag aaggngaaga 780
cctagaccaa ctacatctgg tgtcctttgt ctatcagaac acaaagaagg aaaagacaga 840
agactcgatg atgacttcga aacgttcaaa aatttcacaa atcttgat 888
<210>702
<211>953
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(840)..(878)
<223〉n=a, c, g or t/u
<400>702
aaatcgtgtc tgatataaga tacaaaactt tggaagaaga cgaaatctat actcttctca 60
ttattgaagt tgttccagaa gataccggta aatatgaatg tgtcgctatc aacaactccg 120
gagaagctag atgtgaagct gaatgtgtag ttacttcacc atctgctgcc cagaaacccg 180
ccaaacccac aactcccggt gcggaaaagg ctccagccct tctagaacct ctcaaagatc 240
agactattaa agaaggacaa gctgtcgtgt tcagatgtaa gatttcagct aaaccaactc 300
cagttattaa gtggcaaaag gctgataagg tcatcaagcc atctaaatac ttccaaatga 360
ccaaagaagg ggacttctgc acgttaaaga tctcagaagc tttccctgaa gatgaaggag 420
tctacaaatg cgtcgctgaa aatcctgcag gcgctgttag tactcaagct aagttgaagg 480
ttattgcacc agaaacgcaa gaagttgcac catcactaac cccaatgaaa gacgttactg 540
tacctgaagg tagccctgct caattcaaga ctactatttc tggaaaacct aagcccacca 600
tccaatggtt gagggaggga ttccttattc cagaatcgcc agatttccag atgatccaag 660
aagggaacaa cgttattcta ttgatttcct caacctacga agaagacact ggcttattca 720
cctgcagagc aacttcatca gccggtcaag ttgaacaatc tgcgaaacta accgtaaaaa 780
gtaagaaatg attgctataa aaatattctt ttctaattct caaattgtta atgtccatcn 840
catgtagtta ttgttangta tgacagcttn cagctggnta tttaacacag tataaataag 900
tgatcagtta gcagaactct tttgagatag tcatgatatt ggactaatgg gtt 953
<210>703
<211>905
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(849)
<223〉n=a, c, g or t/u
<400>703
ccttacgcgt ccgccaggaa cagggaagga gaagcctcag tcacatttac tctgaaaatc 60
aagaaaatca agaagactca ggaaggcaag tttaagatag tcgccaggaa cagggaagga 120
gaagcctcag taacatttac tctgaaagta attacttcag agaaagaagc acctgaggtc 180
ttatcacctc tagaatctat taccgtaagg aaaggagaac cagttacact ttccactact 240
atatttggaa acccggaacc tactatcgaa tggttgaagg atggtaaacc tttaaccaga 300
ccaaaattca aaaaagacgg aaacacatac actttaacta ttcccaagac atctacagat 360
gacactgcta catatacagt tcgagctacc aattctatgg gtacaataga aacaagtgca 420
aacctaactg ttgaagaatt cccagaaaac caggaaccac cattgttcgt caaacgattt 480
gaagagcaaa ctgtaccaca aaagtctcct ctcaccctca aagccaaagt ggttggcaat 540
cctactcctg aagtatactg gcttagaaat aatgagcctt tggaaccatc cgatagggta 600
aagatcacct tcgatggaga aaacattgaa ctaactatta aagaaaccaa ttctgaactt 660
gactctggag actacaaatg tattgctgtg aatccagcag gcaaagcctc gcatggtgcc 720
aaggtatcta ttgaggtaga tactgtcaaa tttactaaag aactgaaaga agtttacgaa 780
acaatagaaa gaaagaccat cgaattagaa tgtgaaacat cccactcagt tagaacaaaa 840
tggtggtanc acacacggaa attagtggta tggaccatcg cgttgtagta caagatggac 900
gtacc 905
<210>704
<211>426
<212>DNA
<213>Diabrotica virgifera
<400>704
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaattta ccatggtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gccctcaaaa agaagaaacg attggaaaag acccaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaatttgaa tgtagatgat gttcacgata tcatggatga catagccgaa caacacgaca 360
tagccaacga aatcacaaac gctattagca atcctgtcgg attcaccgac gatctggatg 420
acgatg 426
<210>705
<211>473
<212>DNA
<213>Diabrotica virgifera
<400>705
gtctaggcac ggacaaaagg gaacgtgcgg tatacaatac cgtcaagagg atatgatttt 60
tagtgctgaa ggtattacgc cagacattat cattaatcct cacgctatcc cctcccgtat 120
gacgattggt cacttgatcg agtgcatcca aggtaaggta tcatccaata aaggagaaat 180
cggtgatgct acacctttca acgatgccgt caacgtacag aaaatctcca ctttgttaca 240
agaatatggt tatcaactca gaggcaacga agtaatgtac aacggccata ctggacgtaa 300
gataaatgct cagattttct taggacctac ctattatcaa agattgaagc acacggtgga 360
cgataagatt cattcaagag ctagaggacc gttgcagatt ctcgtcagac agcctatgga 420
gggtcgtgca agagacggcg gtctacgttt cggtgagatg gaacgagatt gtc 473
<210>706
<211>677
<212>DNA
<213>Diabrotica virgifera
<400>706
gtctaggcac ggacaaaagg gaacgtgcgg tatacaatac cgtcaagagg atatgatttt 60
tagtgctgaa ggtattactc cagacattat catcaatcct cacgctatcc cctcccgtat 120
gacgattggt cacttgatcg agtgcatcca aggtaaggta tcatccaata aaggagaaat 180
cggtgatgct acacctttca acgatgccgt caacgtacag aaaatctcca ctttgttaca 240
agaatatggt tatcaactca gaggcaacga agtaatgtac aacggccaca ctggacgtaa 300
gataaatgct cagattttct taggacctac ttactatcaa agattgaagc acatggtgga 360
cgataagatc cattcaagag ctagaggacc gttgcagatt ctcgtcagac agcctatgga 420
gggccgtgca agagacggtg gtctacgttt cggtgagatg gaacgagatt gtcaaatttc 480
acacggtgct gcacaattct taagagagag gctgtttgaa gtttccgatc cttatagaat 540
ccatatttgc aacttctgtg gtttgatagc tatcgccaat ttgcgtaaca acacctttga 600
atgtaagggt tgcaaaaata agacacagat atcgcaagtt agactgcctt atgctgcgaa 660
attactgttt caagagc 677
<210>707
<211>250
<212>DNA
<213>Diabrotica virgifera
<400>707
atggcctgta cgtcaagcaa ggccagtcag tgaaaaatta cctgccaacc gaaattgacg 60
ggcacactga atctattatg aaacgtaccg cattggtcgc gtttggcttc cttctacgaa 120
cgtgctggtc gcgttaaatg tttaggtaat attgtgcagc tggtaggtaa agcatctctg 180
gcagaaacgg acaaaatcac gatggtgaag ctaaaatcaa ggcagatttt gatcaattat 240
atgaagatat 250
<210>708
<211>250
<212>DNA
<213>Diabrotica virgifera
<400>708
attgtgcagc tggtaggtaa agcatctctg gcagaaacgg acaaaatcac gaaattgacg 60
ggcacactga atctattatg aaacgtaccg cattggtcgc atggcctgta cgtcaagcaa 120
ggccagtcag tgaaaaatta cctgccaacc gatggtgaag ctaaaatcaa ggcagatttt 180
gatcaattat atgaagatat gtttggcttc cttctacgaa cgtgctggtc gcgttaaatg 240
tttaggtaat 250
<210>709
<211>250
<212>DNA
<213>Diabrotica virgifera
<400>709
gaatacttcc gtgatatggg ttacaacgta tctatgatgg ctgactcgac gaatacttcc 60
gtgatatggg ttacaacgta tctatgatgg ctgactcgac gaatacttcc gtgatatggg 120
ttacaacgta tctatgatgg ctgactcgac gaatacttcc gtgatatggg ttacaacgta 180
tctatgatgg ctgactcgac gaatacttcc gtgatatggg ttacaacgta tctatgatgg 240
ctgactcgac 250
<210>710
<211>273
<212>DNA
<213>Diabrotica virgifera
<400>710
gaagaaagta cgttaatatg gttccagggc tccaacaaga cgagctattc ttactgggtc 60
gagaacattt taaaattttt ggataagtac tacgttccca gcaaaatagc taaaggaaat 120
ggccaaatta aaacatgctc tcatcacgac tatcctacta gtggagaagt atgcgaagtc 180
gatgtcagag attgggaaga atgcaacagg gatcaattct ttaattatca caagaattct 240
ccatgtattt ttattaaatt gaacaaaata tat 273
<210>711
<211>278
<212>DNA
<213>Diabrotica virgifera
<400>711
acatttttcc cgccattcca attactatta agttttttcg ttttaatact tttttaaata 60
tacaggtgct taatatcgtt tatattttca gtattacttg gttttcttca tgtaaattgt 120
tttaaatttt tcttttaccc ttttaatctt gtatattaca ttacccaatt aaagttaatt 180
gtacagatta agataaacga gtatcttata acatctatta gattgttaga atcaataaat 240
gtagtgtaat tgttctgttt tgaacaaata aatgcatc 278
<210>712
<211>287
<212>DNA
<213>Diabrotica virgifera
<400>712
aacggttatt tggaaggcct gtgtcgtggc tttaaatgtg ggatcctgaa acaatccgat 60
tatttgaatt tggtccagtg tgaaactctt gaagatttaa aactgcactt gcaaggcact 120
gactatggaa cttttttggc caatgaacct tcacctttgt cagtatccgt catcgattca 180
agacttcgag aaaaactcgt gattgagttc cagcacatgc gtaaccaagc agtagagcct 240
ctctcgacat ttatggactt cattacctac agttacatga tcgacaa 287
<210>713
<211>250
<212>DNA
<213>Diabrotica virgifera
<400>713
atggcctgta cgtcaagcaa ggccagtcag tgaaaaatta cctgccaacc gaaattgacg 60
ggcacactga atctattatg aaacgtaccg cattggtcgc gtttggcttc cttctacgaa 120
cgtgctggtc gcgttaaatg tttaggtaat attgtgcagc tggtaggtaa agcatctctg 180
gcagaaacgg acaaaatcac gatggtgaag ctaaaatcaa ggcagatttt gatcaattat 240
atgaagatat 250
<210>714
<211>250
<212>DNA
<213>Diabrotica virgifera
<400>714
attgtgcagc tggtaggtaa agcatctctg gcagaaacgg acaaaatcac gaaattgacg 60
ggcacactga atctattatg aaacgtaccg cattggtcgc atggcctgta cgtcaagcaa 120
ggccagtcag tgaaaaatta cctgccaacc gatggtgaag ctaaaatcaa ggcagatttt 180
gatcaattat atgaagatat gtttggcttc cttctacgaa cgtgctggtc gcgttaaatg 240
tttaggtaat 250
<210>715
<211>250
<212>DNA
<213>Diabrotica virgifera
<400>715
gaatacttcc gtgatatggg ttacaacgta tctatgatgg ctgactcgac gaatacttcc 60
gtgatatggg ttacaacgta tctatgatgg ctgactcgac gaatacttcc gtgatatggg 120
ttacaacgta tctatgatgg ctgactcgac gaatacttcc gtgatatggg ttacaacgta 180
tctatgatgg ctgactcgac gaatacttcc gtgatatggg ttacaacgta tctatgatgg 240
ctgactcgac 250
<210>716
<211>372
<212>DNA
<213>Diabrotica virgifera
<400>716
cccgggttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 60
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 120
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 180
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 240
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 300
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 360
gccctctcta ga 372
<210>717
<211>372
<212>DNA
<213>Diabrotica virgifera
<400>717
cccgggcaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 60
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 120
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 180
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 240
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 300
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 360
gctagctcta ga 372
<210>718
<211>490
<212>DNA
<213>Diabrotica virgifera
<400>718
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa 180
ctacagaggt acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca 240
cacggtgctg cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat 300
ttgactccct ttcctcttgg gagggaaacg aaggccttag ctcccttacc tcatcgtccg 360
tttggattca caaaaacaca tcgacttctc tctgaaatca cctttgggag gcggtcgtcc 420
gatccttttc gatttgttgc tgccattggg gatccatctg gacttctgga ggaagcaagg 480
caggt gcagc 490
<210>719
<211>560
<212>DNA
<213>Diabrotica virgifera
<400>719
ggcgcaagcg cttcagtgtt atcatatgcc cacttccagg catttaaatt ccctgactcc 60
atggaagttc tccatcaggg gccaaaaggg gataccaagc cattaccggc cactcatcca 120
cagctttagc atggtacata tagtgatccc aaccgtgcac ctgactgtga cccaactcaa 180
tgtgtaattc cggactgttt ctgctcagcg cccgccacca gttagcgccg aagtacaaaa 240
gggattggac cttatttttg ctggtatcag agctcaacag gcaccacgtg ctcaacgata 300
aaagactggt caggaaggca cattcctttt tgccttactt attcaaggca gggtgcatac 360
agagtagcca cgtaacaaat agcacatagc gaagtgttgt accagcataa tgtataagct 420
cctgtactta ccaaaggctc gttggcagat ctagaccagt tggacgaatt ggttattgag 480
tactgtggtg cagcgccccc tttatggcag atgaatgtct gatggccata ccagacatcg 540
aaggtattga ttacaccacc 560
<210>720
<211>372
<212>DNA
<213>Diabrotica virgifera
<400>720
cccggggcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 60
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 120
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 180
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 240
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 300
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 360
ggagaatcta ga 372
<210>721
<211>372
<212>DNA
<213>Diabrotica virgifera
<400>721
cccgggctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 60
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 120
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 180
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 240
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 300
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 360
acgatgtcta ga 372
<210>722
<211>1000
<212>DNA
<213>Diabrotica virgifera
<400>722
caagcccgcc aaaatgcgcg aacatctgga actcttctgg tctcgagtga atatccccaa 60
agttcttagg aatgcaatgc ttcctagacg tcgtcgagct ggctctgaaa ctgagcccca 120
agttatagta ggtaacgata attattggac gtggcattag gttataggga aagtgtcaat 180
ctgtctcaaa ttcgcacatt tgtggaaatg gactcgcacg cgcggcccaa cgacggcttc 240
aacaaacaca ggcgcaagtc gacgaagtcg tggatatcat gaaaacgaat gtagaaaaag 300
gtatggcagg aaagaaatgc tgaatccgcc attgaagctc ttaaagaata tgaaccagaa 360
atgggcaaag ttgtccgaca agacaaatcc ggtattcaga aaatccgggc atagcaaaca 420
tgccaaacac acacacgcag aaaggaaata tcagtcagac tcagaatcag atagtgatct 480
ggaatggatt ggacacagag gtgaatcaga ccagaggacg ttcgggggta tattaaaaat 540
aacgttgtgt gcgcacttgg aaccgaaaca agcagaccat catccgcagc tcagtgcgta 600
gccgaatgtg gccgtgcaca ctgtgcattt gtaggacagg tgtgcgggtt tcaacgtcat 660
gttatgatcc cttgcatata ttgatggaaa aacacgccaa agaagagagc agagtattaa 720
aaggagtatt gccaggtaca tagaccagca aggaactgta atcaaaatgg gcgatgaaaa 780
gaaggccagc gatagcgaac acattaatct caaagtactt ggtcaggata atgcagtggt 840
gcagaaggtc agacctctcc tcaacgtcac ccgtatcgag gatgagattg ccaaacttga 900
agagaaagcc caaaaagccc aacgaacacg gcgtagacga aacatcttgt gtagttattg 960
tagaaggaca aaccagcaca ccagaacaac aagaactagc 1000
<210>723
<211>478
<212>DNA
<213>Diabrotica virgifera
<400>723
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct 180
gaagcaacat ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca 240
cattgtcctt ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg 300
aaatcacaaa cgctattagc aatcctgtcg gattcaccgt aatgcactcc tacgtcgttt 360
ggttcgtatt ggagtactag acgagaacag aatgaagctc gattacgtat tgggtctccg 420
aagtaatgta caacggccac actggacgta agataaatgc tcagattttc ttaggacc 478
<210>724
<211>584
<212>DNA
<213>Diabrotica virgifera
<400>724
cacttgacga aaacagcaat agcacaactc cacccactat ggtctttccc gccaaggagg 60
aaattaacat aaagaacaag gagaagccgg taattacaaa gctgcatatg aaaccggaaa 120
caacattatc gctgaagaag gaggttactt gaaggcaagg atgaaatggt aggaggacag 180
gatagcaacc aaatgaatac ggcagcgagg gaaaatggta ttgttgccac atggtagact 240
cctgttctaa tgttcaaact ggagatcaat ttgcaagact actcagacac aatttcaaca 300
gacatttgaa ttcaaaccga gctccgttgg gtccagccac ataggactaa gtgtggaggg 360
ttcattcatc aaaattcgct ttatgtgcac acatagcaca taagcataca tggcaaatat 420
gcctatccat ccagttgtca gctaacagaa gtgcccttat ggagggtgtt ttgaagaaca 480
cgctggcgaa tgtgagttgc agatgggctc aagaatacac cgctattgac caggatctcg 540
cttcagaata attccataga aaagctacca gcccatgcat ttaa 584
<210>725
<211>869
<212>DNA
<213>Diabrotica virgifera
<400>725
ccgaagtgag atcggagcca aaaagcattg gttgcttgac ggtccaatgg aaaacgaacg 60
agaagtggat ggcttcagca atgctcggcc aggctgattg ctctttattt tgacactgga 120
atgtacagcg aagcgctaca actggaatcg accttactga ctactcgtct acgatatcgc 180
caaacatctg acatacgaaa acgttgaacg ttggttgcgc gaattgcgcc attcttttct 240
caggtaccaa tgttgctgct ggtaaagcac gtggtattgt tattggaact ggtcttaaca 300
ccgccattgg taaaatcaga actgaaatgt ccaacgaaat tgccaacact aactcaagac 360
agaacatccg taagttgata aaggatggtc ttattattaa gaagcccgta gctgtacatt 420
cccgtgccga tacctacaca gaaagctata ttagtaccat tggcgtagat tttaaaatca 480
ggacaatcga tttagatggg ttacaaaagg ataccaatac aagatgagag cagcatatgc 540
tcactttccc attaactgtg tcaccactga aggaaacaca gttatccagt ttgcaagctc 600
tctggcagat ttcagtcaaa tcggcaccag aaaatccatg agttacttta gcaatgtata 660
caagatctac gtctttagct acaggcgatt tccgatgaaa tagtggcatt aggttatagg 720
gaaagtgtca atctgtctca aattcgcaca tttgtggaaa tggactcgca cgaagaaaaa 780
gtttatcagg ccgtgagaga attaaaagtt caaggaggta tcggttcgtg tgtatcactt 840
aacgtgaaga gccccttggt ttccgacac 869
<210>726
<211>737
<212>DNA
<213>Diabrotica virgifera
<400>726
gtggcgtttt tctatttaca gtatgtgaat gtgtcaaagt aactgtgttt ttcaaaaatt 60
aacaaaagaa attcaaaatg tacaagtgga caaaaaatat taaacaaatg tatatagtgt 120
atctatttct aatcgaatca acaaaatatg atcttactga acagaatatg atgcaagcta 180
atattaaatg caactcgtat gttttattat atcctaaacc aaagacttat tcatcttgaa 240
ggtgactgtg tgccgtcatc tcttttattg agacaattag gacgtttttc gttctcagcg 300
gcttctcgga aatccctggc ttacagaaac ggatggtgac tatagtcacg gaactgtcaa 360
aattaatttt gtatcttata tgaagcctca aacgttttgg aaatatttct tctctttatc 420
aggaactgga aagaagtata tgccctcagt ttgttatctt tctctagatg atgggaggaa 480
aaatttttaa aatacctgtt tgtcagagtt ttattactat taagaagaat tcttcatctt 540
aaaggtaacc gggtgtcgtc atcactttta ttgacacaat taggacgttt tttgatctca 600
atggcttttg gtgtggacaa tagttataga actttcaaaa ccaattttgt gtcctgtcta 660
gatcatcaaa cggttttgag aagatttctt cccttcatat ggagctggaa agaagtattt 720
gacacctgtt agttatc 737
<210>727
<211>867
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(771)
<223〉n=a, c, g or t/u
<400>727
gcagtttgag aggaaagttt caacaccccg tatcttggaa acgaagcatt tgcggacata 60
cgtttataga gcaaactgtc attatttaac accctgtata ggcccacaca aaagattatt 120
acctccttca tgagactttt ttttttattg agttattcat gtcgagttgg acgtttctga 180
tatgaaaaat tttcaggagg gagacggttc gtaaatatgg gggtttataa actttggtgc 240
atctatggtg gttcctgttt atctgaacca tctcagatag ttaaggggtg gttaccccct 300
actatagggg ttgatgaagt aacactactc acagtatatt catttattta taagttgaag 360
taactacggt aaagagttgg tggctaaata tttatccgct gtgatgttta cccgctggga 420
tctcaaatac ccatgattaa tctttacgca atgaatttag aacgtcgaat gtggaatccc 480
ctgtttatgt tttggtatat ataaaaagtg aaagtgtttg tattataaat gctgaatcaa 540
cttgattata aataaagaat aatatttgct actacagctg accttgcatt atcgataact 600
gatacacttg tatagtaata taggtcaatc atgtttatga taaacaacgc gtattcgttt 660
accaaggaca tttaaatatt aaaagaatta gtcttgccct taataagatg gttactaaga 720
gatgctgtga atcccaatac acatccgaca actggagtaa gtatccttga naatttgtcg 780
gaaaatatta ccagtgaatt gtatttttat caaaatatac tgcaaaaaaa cccatcattt 840
atgactctat agtggacgca catatcc 867
<210>728
<211>802
<212>DNA
<213>Diabrotica virgifera
<400>728
cgtccgtgat aacaaaatca atcaaagagt tgtttattaa atagtattga tagtgtattt 60
gaaaaataat aatttattta aggcgtacaa ttaataaaaa gttatttatt gtttatatat 120
tatttatgga aaatccaagt atttcaagtc attaaaattc aaataaaagt attattttat 180
aagagtttgt tccgataacc gtaaataggt atgagtttag ttataaagta aagtgcccat 240
ggtgtcataa aatgtagtaa atgctaatgc ttcaagtacg tactacattt ttgaagattt 300
cactgcactt aaaaagcatt tgcctttctc cgcagtattt gctactattt accagcctac 360
atagaagaat gtactacgct tttgaagtat atgcttgttt agtagtattt tgcttcagtt 420
taagtgaagt tggtgggtgg tcgtcttcgg cgtaggtatt tttttgttac aatatggcag 480
catttatgaa tgtgtgtcat agaaaaattt acaaactaag aagaagattc ttaatttttg 540
gggtcattct tttatcaaat aaaatttaat aattgttaag aagattaaca aataacaata 600
attgttcatt tttatcctcg cgtaactctt tgtcgcttcg gatctgagtc actcattttt 660
actcatgtac aattctaata atttggtacg taaaaatgtg aatttacaaa tcacaagcac 720
atggaaaact aattccatca cgattggtgt aatgcagaca cggctggcac tacgctttgt 780
agtagatact tctggtcagt ag 802
<210>729
<211>862
<212>DNA
<213>Diabrotica virgifera
<400>729
ggaccatttt gagtgggagg atagctcaag tgttgttgtt tgagttattt tcgggcaatt 60
tctgcaggga agtttgggtc acctctcaac gtccacctca aaacagatgc gccctggact 120
aaaacaattt taagtactct cattgttaaa aagttgattc accacatttt cataacgatt 180
tttagggcgg ctgtacacgg actgctgagg tcgtttatca ctgagcgaca tacacggact 240
gctcgagcga tcgttgtaga cttctggagc ggtccattgt tgactacctg agttgtccct 300
tgtcgcattg caaccgctct cgatctgtcg atagcacgat ggaatttcat tatgctattg 360
acagcttgaa gcggtcttga ctgctcgagc tgtcgtgtgt atggcaacga atatacaatt 420
ataattcacc gcgcaaacgc tgcttcaaaa agtcgacctc aactgcttga agatgtccgt 480
gtacggccga tcttggggta tcttttttac tcttatcggg aatatttaag aaccgaaatc 540
cctaatgttt tccctatttg ttccagaatg atatacgtgt taatttccaa ctgagacttg 600
acggccagca cgaccgtacg acaagacatt ttcgaacagt aaaatcatta gttttagtaa 660
caaatacaaa gacagatggg aattcggttc tcgatattat gcagagtatt tacctgatga 720
tgaacactta ttggaggata gaaacgcata atttgcagaa ctgacttacc catgtaatgg 780
acaggtatga tggaaacgta tgtactttaa tgttttgtta gtatttttac gagagaagct 840
aagtaagttt gtgaagaatt ag 862
<210>730
<211>603
<212>DNA
<213>Diabrotica virgifera
<400>730
gctgctcctg tggcataacg gccccgtacc tggagaattt tacaattttc ccggcaaaca 60
gaccagctat tccaacccta taacacatac acagtctccc gttacaacat caacttctgt 120
attagctatt acttacgata aaggagtatt gataaccgga gatctggttg cttcatacgg 180
atctttagct aggtacagaa attgcccgag ggttattaaa gtcaatcaga atatcatctt 240
gggagccgga ggagactatg ctgatttcca atacgtcaag agtttcattg agcaaaaaat 300
aattgatgaa gaatgcattg atgatggact aaaaatgaaa ccaaaatcat tgtactgctg 360
gcttactaga gtaatgtacc aacgcaggag taaattagac cctttttgga ataatctggt 420
tataggagga atccaggatg gagtcccctt tcttggaacc gtagataaat tgggaactgc 480
atatacagac aaagttatat gtacaggtta tggagcccac atagccttgc ctcttctgag 540
agactcttta gataaaaatg gagctcttaa cttggccgat gccaagactc tgattcacaa 600
atg 603
<210>731
<211>545
<212>DNA
<213>Diabrotica virgifera
<400>731
ggtactttgg gttgtacttg ggataaaaga cctttttgtg tttccaaata cattgtcata 60
taaattaaaa aagaaatggc tgccatcaga tctatgtctc gccttcttat taatagatca 120
cttcaaacca ctgcaaagag gacctatgcc gaccaaatga acttcacatt tgcagctgga 180
aatcaggttt actatactgc aacttcagtt aaacaagtag atgtgccatc tttctctggt 240
agctttggta tcctccccgc ccatgtaccc acactggctg tgctaaaacc tggagtagtc 300
actgtttacg aagatggtgg taatgttaag aaaatctttg tttccagtgg tactgtcacc 360
atcaatgatg attcatcagt tcagattctt gctgaagaag cccacccagt agaaaacatt 420
gatgtcaatg cagcaagaga catccttacc aaagcccaga gccagttatc atctgcaagt 480
acagatgagg cgaaagctga agcctccatt gccgttgaag tgggagaagc gtatcaaagc 540
ggctg 545
<210>732
<211>496
<212>DNA
<213>Diabrotica virgifera
<400>732
gactaaactc cacagaactc ccagacccag tcggcctgac aaggctcgca gaatgggtta 60
cagggccaag caaggttttg ttatttaccg tattagagta cgacgtggag gacgcaagcg 120
tccagtacca aaaggtgcca cctacggtaa acccaaaagc catggagtta atgaattgaa 180
acctgtccgt aacttacaag ctattgctga ggaacgtgta ggaagaaggt gtggtggatt 240
aagagttcta aactcctact gggtagccca agattcaaca tacaaatatt ttgaaatcat 300
tttggtcgac ccctcacata acgctattcg caaggacccc aaaattaact ggattgtcaa 360
ctcagtacac aaacacagag aactccgtgg caaaacttcc tctggcaaat catctcgtgg 420
tttgggcaag ggtcacagat actctcaaac caagggagga tccaggcgtg ccgcttggct 480
cagaaggaat cactgc 496
<210>733
<211>512
<212>DNA
<213>Diabrotica virgifera
<400>733
gctgattcgt tattctctgt gacaaagtac caacagttgt gtctttaata tctctcaata 60
agtgttcaac accaacttct tcagcttcct cagctccgat ttcactagga acatgctcaa 120
atgttttaga tgtaggtgaa ccgtcatcgt gtacttcttc tacagcttga taagcttcag 180
ttggtaaacc taaatctttt ggtttagcgt ctatgataac tagaacggaa tttggacaat 240
accttctgat taactcatta atggcaatat cattttgatg aagtttgggg ccggtgtggt 300
accaacctac tactcgttcc ctggcattaa cttttttgaa cattccatac atgttttcta 360
agtaatcatg gtccaagaac cacacagact tatccttgtc atcttcgtca aaaggaactg 420
caaaactgtt agaaacatct aagactcctt tagcacgcca acagccaaga agaacaccaa 480
caacacgctt ttgattgccg attttgccca tg 512
<210>734
<211>669
<212>DNA
<213>Diabrotica virgifera
<400>734
gttgacgttg cgtccgaaca gagcattacg gatctgggga atcaattgtt gtgagatgag 60
ctcaagacgg gcttccagag tattgttgat tttgatcttg tttctcaagg ccaacagttc 120
gattcctccg gtggtttctt gagaaaggtg gctctcgtcg tcgattttta gatttacgtc 180
tttaccggtt atgtccttgt acttttggga gacgttaggc atgatagatt ttaccaattc 240
tctgtcctga gggcgtactc taatggtgat gtccttttcg aagagctgat agagcccttg 300
gaggatgaga ctttccagga tttgtgtata tttgcctgaa tctctggtta cctcaccaag 360
acgtttgcga gcatcttcca aaacggcacg tacatggtct tcccttactt tcaatacctt 420
caatcttgcc tggttcaaca tgtttgatga ttggattttt ttctggagtt ctacttgctt 480
ctcttttttc tcgtagtact ccataatctt gagcctctgt tgttggacca gacggccctt 540
ttcgatgttg aattcttctt cagcctttgc atcaatttcc tcggcctttt cattggcttc 600
ttgctcaatg aaagccatca tgtgcttgat ctgcttttgt acatctgcgt cgctgagagc 660
attttgaga 669
<210>735
<211>802
<212>DNA
<213>Diabrotica virgifera
<400>735
gagccaagag caagtctgaa gatggttgac ggaaaaccaa acgagagtac cactagcaaa 60
gcagccttga aaaaggaagc aaaaaaggca gagaaggcag caaagaaagc agaacacaaa 120
caagctgctg gtgaaactca acagaacgtt gtagaagaag ttgacatatc agttggaaaa 180
tatggaaatc ttccccttat aaaatcagaa actaagcaca acgagaggac tttcacctca 240
gtaagtgacc taaataaatc cgtgtctgga aaaactgtat ggataagagc aaggttacat 300
acttcaagat caagaggaaa acaatgcttt attgttctga gacaaaaaga atttactgtg 360
caagccattt taaatgtctc agacgtcgtt tcaaaatcta tggttaaatt ttcaagtggg 420
gtacctaaag aaagtatcct cgatgtcgaa gccaaagtat cagtagtgcc caataacata 480
gcaagttgta gtcaacagga cgtggaacta gttgtttcac agttatgggt agtgtccttg 540
tctgctccac agcttccttt gcaaatagag gatgcatcca gacctgaaaa accagaggaa 600
gaagaaggtt taaatatccg ggtaaatcaa gacacaaggc tggacaatag aattttagac 660
ttgagaacac caactaacca agcaatttac cgattggaag gaggcgtctg tcggctgttt 720
agggaagcgc ttactaagaa agggttcgta gaaatacata cgccaaagat catatctgct 780
gcttcggaag gaggtgctaa cg 802
<210>736
<211>579
<212>DNA
<213>Diabrotica virgifera
<400>736
gcagtcccag aatcagtctt aaaacaccgt aaaagacgtg aagcatcccg tgctaaacaa 60
ctccagtctg tcatcaaaaa gaaggcagaa cagatcaaaa agaggaaaga tattttcaaa 120
agagctgaac agtatgttaa ggaataccgt ttaaaagaaa gagacgaagt taggctagtt 180
agacaagcca aaaccagagg aaatttctat gttcctgctg aggctaaatt ggcttttgtt 240
gttcgtatta agggtatcaa taaagtagca cctaaagtac gcaaagtact ccaactattc 300
cggttacttc aaatcaacaa tggagttttc gttaagttga acaaggctac tattaacatg 360
cttaggatat gcgaacctta cattacatgg ggatatccta acttaaagtc agtaagagaa 420
ttaatctaca aaagaggatt tgccaaagtt aatggacagc gtgtagcaat taccagcaat 480
caaatcgttg aagacaggtt gggaaaatct ggaatcattt gtgttgaaga tttaatccac 540
gaaattttca ctgttggacc taagttcaaa tatgcctcc 579
<210>737
<211>640
<212>DNA
<213>Diabrotica virgifera
<400>737
gttcagaacc aattacacga ataaagcagg catctgttct attggctact gctctagcac 60
aaagagtttt accagttcca ggggggccaa aaaggagaac gccttttggt ggttcaatac 120
caagttttac aaatttttca ggatggagta aaggtgtttc aacaacttct ctcaactttt 180
caatttgttc cttgcagcca ccaacatcac tgtatgtaac atcaggcttc tcctcaactt 240
gcatcatagt cacagtggga tcaatttttg gaggtagagg aatatgaatt tgatacttat 300
ttcggtcgac tccaactctc atgccttctt ctatgtctgt aggggccaca gagtctgcca 360
aatctactac gaatttggca aactgtttaa cgtttataat gtatttggga tcatctgtat 420
cagcgttgat aattttcgta caacgggcca cttgtaaggg ttgctcattt tgtaaggttt 480
gtttgtcagc tgccaaatcc cataaagctg gtggagctaa accagtatca gattctttta 540
taccagttaa ttcatttact cttttgatta tcgtttggat atcttcttca catgttttaa 600
ttgtctttgt gtattgccct tgtccatagg ttttaagaag 640
<210>738
<211>669
<212>DNA
<213>Diabrotica virgifera
<400>738
ccaccttcaa atgcgtcttg gtcggagatg gaggtaccgg caaaactacc tttgtaaaaa 60
gacacatgac tggtgaattc gaaaagaaat atgtagcaac cttaggagta gaagttcacc 120
ctttagtttt ccacacaaat agaggacaaa ttcgttttaa cgtatgggac acagcaggcc 180
aagaaaagtt tggtggtctg cgtgatggat actacatcca aggacaatgt gccataatta 240
tgttcgacgt tacatctaga gtcacttaca aaaatgttcc aaactggcac agagatcttg 300
ttagagtttg tgaaaatatc ccaattgtat tgtgtggtaa caaagttgac atcaaagata 360
ggaaagttaa ggcaaagagc attgtcttcc ataggaagaa gaatttacaa tactatgaca 420
tctctgcaaa atccaactac aactttgaaa aacccttctt gtggttggct aggaaactca 480
ttggagatcc caacttagaa ttcgtagctg cacctgcctt gcttcctcca gaagtccaga 540
tggatcccca atggcagcaa caaatcgaaa aggatcttaa agaagcctca gaaactgcac 600
tgcccgatga tgacgaagat ttataaactc attaaccaat tactaaaact ctgtcatcgt 660
tccaaagcg 669
<210>739
<211>302
<212>DNA
<213>Diabrotica virgifera
<400>739
catcctctgt gtttccgttt tgaacttaac ttgtatttag tttaaaaaat aatcatgtct 60
agaggaagca gtgcaggttt tgaccgacac ataacaattt tctcgcccga aggccgactc 120
tatcaagtag agtatgcttt taaagccatt aaccaagccg gccccacttt ggtagcagtc 180
cgaggagtag atgctgcggc gtgtgtgacc cagagaaaga tcccggataa gctgattgat 240
cccaacacaa ttacacatct gttccagtta acagaacaca ctggatgtgt gatgactggc 300
at 302
<210>740
<211>838
<212>DNA
<213>Diabrotica virgifera
<400>740
gaacttgttt aactacttga agtacattgg ctggcggtgt ttgtggtttt agaccaattc 60
caggttggtg aggagatggt attcccattt gaggatttgg caaacctgta ctcattgaat 120
tagcaggact aacagcacct ggtactactg attgcacacc agcaccaccc atagtgacat 180
tagcaccacc tggtatagga ttcgctgctg gtgctgttct agtcataaca gccattcttc 240
tcctaagtag ttgcgcctgt tgcaaccttt gttgcaattg ttgttgtttt agtttgtgct 300
ttatgtttga acagaatggt acaggacact tgttttctgg gcagtgtttg gcatgatagc 360
aacatagagc gatgagttgt ttgcaaatag ggcaaccacc atttgttttc ctcttgcaca 420
atttggtgtg atttgtgact cgtttcatct tctgacagct tggtaaccga caattggcat 480
ctctgcattg acaagcatgt accaaagaat ggatacaacg ctgtatagat aattttctag 540
cttctcctgg attggctttg ctatcactag gtgaacttcc atcatcaata tccaatccaa 600
gtttctccat tttgtgagga tgaccttctt tctcataaca ttggatgcac aagtcaaagt 660
cttcacacac agtacaatga taccttgttt ccacatgggc tttacaacta ttacaagtat 720
atacaaattt atcttgacct tgattatgca attcatataa catagacaaa gcactatatt 780
tggcccttct taaagaagag aattcataat gtttttcacg ggcgagtgtt aggaatgc 838
<210>741
<211>1301
<212>DNA
<213>Diabrotica virgifera
<400>741
ttcaagttgt tcttgtcctt cttcgtaggc gcccttaagt ctgaacaatt cggtggagta 60
gtttctgcat tctttctgac tggcatcgag ttcagcagcc aagtcatcaa ccttgagttt 120
ccattctcca atgattttgt cgaaggcctt ttgtttcttc tcagcagcat tggcaatggc 180
gttagcacgg tcgacttcga gttgcaagtc ttcgacttca gtggccaaac gttgtttggt 240
cttttcaaga gctacaacct tctggttgag agattcgatg gtttcttcag cctcagcaag 300
acgagcttgg agtttcctct tagcttcttc gagttcttca gagcgagcaa ctccttcaga 360
ttcgtatttc tggcgccaga gttgagattc agcgttggct ttgctgagtt gtctttggat 420
atcagccttg gcttcggctt cttcttcaac ttgttcacgg atgttgtcca agtcgtgttc 480
caagtttctg aatttgccga ggagggtagc gcgttctctg ctctcttcat cggccaatct 540
cttggtatct tccaattgag tggtaaggga taccttgatc ttgctgagtt gagatacttg 600
agattcggct tcctcgagtt gtctgaggag gtcggagttt tcaatagaca acttcttctt 660
ggcggcatcg aagtcgttaa gagtgcggtt ggtttcgtca agtttgcctt ggacgtcgtt 720
gagttgttgt cccaattgtt tggatacctt ttctatagcg gccttttcgt tggctaagtg 780
gtcgactgaa gcacggaggt cattgagttc accgaagtat tgagactttt ctttctcagc 840
cttggctttg agtttgttga gttggtcaat ttgttcaccc atttctgaaa cagcgtcgtt 900
gtgcttcttg cggaggttag caagagttcc ttcatgttgg atgttggatt cttcgaggtc 960
acgacggagt ttggcgagtt cggcttcacg tttcttgttg agttcgattt gggctgaggt 1020
agcaccaccg gcttcttcaa gacgttcgcc gagttcttcc aattcgcggg ccaaatcagc 1080
gcgttgtttc tcagctttag cacgggcttg acgttcagct tcaacttcct cttcgagttc 1140
ctcaatgcga gcctggagtt ccttaacttg tttttgttgt ttaccaacaa cggattgttc 1200
gtcttcgagt ttggcagtga gtgatgagat ttccttgtct ttgcgttgga tggtttgttc 1260
gagttccttc ttgttgcgtt ccaagtcagc tacagcctct t 1301
<210>742
<211>824
<212>DNA
<213>Diabrotica virgifera
<400>742
cacctccaag gaaagtgtct ccattggttg attttacttc aaaaactccc ttttggattt 60
ccaagataga tatatcgaag gtaccacctc ccaaatcata aacagcaata actttatcct 120
ctgttttgtc catgccataa gctaaagctg cagctgtggg ttcatttatg actctcaaaa 180
cattaagccc agaaatttgt ccagcatctt tggtagcctg acgttgtgag tcattgaaat 240
aggcaggtac tgtgattaca gcattcttta ctttggtgtt taagtaggct tctgcagttt 300
ccttcatctt aaccaaaaca aatgctccta tctgactagg ggaatacatt tttccatcgc 360
ttccctgaac ccaagcatca ccatttgatg ctttaactat tttatatgat acagttttca 420
tatctttttt aacttcctca tcttcaaatc ttctaccaat caaacgttta gtggcataaa 480
atgtatttgc agaatttgtt acagcctgtc tcttagcggg cataccaact agacgttcat 540
tatctttact aaaggcagct actgaaggtg ttgttctgga accttctgca ttttcgataa 600
ctttggcttg tttaccttcc ataacagcaa cacatgagtt tgtagtaccc aaatcaatac 660
caataacagc ccccttgatt ccttctgatt tgtgtcgtaa ttgaatgtca tattttgggt 720
ttagagcgta cagggaagat ctattatttg acaaatggtt aaaatttctg tttccagctt 780
tttcgaaagt gattttcgag caatcgaggg ctttcctgct aagg 824
<210>743
<211>704
<212>DNA
<213>Diabrotica virgifera
<400>743
tgtagacctc tttgccaagg tatcggctgg agatttaaat cctataaatg ctactattgg 60
tggtattgta gcccaagaag taatgaaggc atgttctgga aaattccatc ccattttcca 120
atggttctac tatgatgcca tagaatgcct accacaagat aaatcagaaa tcactgaaga 180
actagctgca cccactggta gcagatatga tggccaagtt gctgtttttg gaaaagaatt 240
ccaaaagaag ttagcatcac tgaaatattt tattgttggt gctggagcta ttggttgtga 300
attgttgaag aactttgcta tgatgggtgt aggaacacaa ggagaagtta cagtaactga 360
tatggattta attgaaaaat ctaatttgaa caggcagttc cttttcagac cacataacgt 420
ccaacaacca aaatctgcca cagctgcaaa ggtcattaaa aagatgaatc ctgatatcaa 480
tgttgttgca catgaaaatc gtgttggacc tgaaactgaa agtgtctaca atgacgattt 540
ctttgaaaag cttgatggag ttgctaatgc actggataac gtagatgcta gaatttatat 600
ggatagaaga tgtgtctact accgcaagcc tcttctagag tctggaaccc taggaactaa 660
gggaaatact caagtggtgg caccttactg atacaacagg gggg 704
<210>744
<211>971
<212>DNA
<213>Diabrotica virgifera
<400>744
gacgtgcccc ttaagtcaaa ataccaaacg agaatccggt cgaaaagttc agctggaaaa 60
catcaatgcc ggaaagcaaa tcgcggatgt gataaggaca tgccttggtc ctcaagctat 120
gttaaaaatg cttatggatc caatgggagg tattgtgatg actaatgatg gcaatgctat 180
tttacgtgaa attacagtac agcatccagc tgcaaaaagt atgattgaaa ttgcaagaac 240
acaagacgaa gaagttggag atggtaccac ctcagtaatt gtcttagcag gagaaatgtt 300
agtggcagct gaacagtttt tggaacaaca tattcatccg acaatcataa ttcgccagta 360
cagacaagca ctcgaagata tgattcagtt attggaaggt ccattaagta taccagtcga 420
tagaaacgat aaaaatgctc ttgcccaagt cgtgaaaggc tgcattggca caaaattcat 480
aagtaaatgg tcagatttgg cagtaaatat tgctttagat gcagtaaata cagtattatt 540
agaagaaaat ggcagaactg aagttgatat caagaggtat gccaaagtcg agaagattcc 600
tggaggatcc attgaagaat ctaaaatttt aagaggtgtt atgcttaata aagatgtaac 660
ccatcccaaa atgaaaagat atatacagaa tccgagaata atacttttgg attgtgcatt 720
agaatataaa aaaggggaat ctcaaacaaa cgtagaaatt tcagcagaaa cagacttcac 780
caaactatta gaactggaag aggagcatgt caagcgtcaa tgtgatgaga ttattgcact 840
caaacctgac gtcgtcttca cagaaaaagg agtatcagat ttggcccaac actttttact 900
gaaagctggt attaccgcta tcaggcgtgt tcgaaaatct gataataaca gaattgccag 960
agcctgtgga g 971
<210>745
<211>1049
<212>DNA
<213>Diabrotica virgifera
<400>745
ggaagaggct agaagattgg ctgctcttca gaaacgcaga gaactgagag ctgccggaat 60
agaagttaca tctcgtagaa agaaaaaacg aggagtagac tacaatgctg aagtaccgtt 120
cgaaaagagg ccagcgattg gattttatga cacgtctaat gaagtattag atcctatggc 180
tcccgatttt tcaaaaatga ggcagcaaca cttggatggg gagctgagaa gtgaacaaga 240
ggagagagaa cgtaagaaag ataaacagaa actaaagcag cgcaaggaaa acgacattcc 300
tcaagctatg ttacaaaacc aggaaccagc taagaaacga tccaagttag tgcttccgga 360
accacaaatt tcagaccagg aaatgcacca agtggtgaag ttgggcaaag cgagtgaagc 420
agctagggaa atagttacag aaagcggtgt tgaaaccact gacactttgt tgaatgatta 480
tactttcaat cctcaagcgg ctgctacacc aaggactccg gcgccccaga ctgataggat 540
tttgcaagaa gctcagaaca tgatggcgct cacacacgta gatacgcccc tcaaaggcgg 600
cattaacact ccgttacaca attcagattt cagcggggtc ctgccccaag ctcagaccgt 660
cagcaccccg aataccgtgc ttgctacgcc cttcagatcc agtaggagtg acggagctgg 720
cactcctggc agtagcgttg gatttatgac gcctagaagt ggcgctttgg tgcctgtggg 780
gaagacgccg gtaggaatga cgccttcggt tagggataag cttagtatta atccagagga 840
agcaatggac gtaggaagca caccagctga gcacagaatg taccagatgt cgatgaaaga 900
tcaattaaaa atggggttga gcagtctacc acaaccgaaa aacgactatg aaatcgtggt 960
gcccgaaaat gaagaccagg aagaacccga gcaagctcag tcacaaatga tcgaagatca 1020
agctgatgta gatgcacgga aacaagaag 1049
<210>746
<211>547
<212>DNA
<213>Diabrotica virgifera
<400>746
gatggagtgc taagacaatg ctactcgtgt gtgattgtag atgtttccca cttgatccct 60
gcttctgttt cctagataca tcttgtaatt gggctatttg ttgattcaag ttgctaagat 120
caccttttat gatatatgtg agttcttgga tttctgatgt tttgtcgtca aataaagatt 180
ttcgttttgc caacaatgtc aacttttcca atttagcata agtgctagct atatgccgtc 240
ccacattctt cgcaattagc ataaactcgc tatgactttg tataaccctc gatttcttcg 300
ggtccctagc agctactgcc ctagcaatgt tcctgccttg taatgtctgt atagtattta 360
caaattcact agttctgtct ctggcagtca tgactaattc tggttcagtg tagtcttcga 420
tataatcttc ctctaaatag tagtcagatg taacattgtt tggatacacc gtgtgtgact 480
gattcgtttt aggctgaggg ttagtccaat aattatcgtt acctactata acttggggct 540
cagtttc 547
<210>747
<211>508
<212>DNA
<213>Diabrotica virgifera
<400>747
cacaaattct actatatcct aaagaagcca tcgttaagac tgctgcgaga ccgcaatcac 60
cgactaagaa gcgtggcgga gcacctcaca agcgcctttc caccaacaaa cacgacgtcg 120
ccgtagtccc actacctcga gcgcctttta ccattaccat accaatcacg atttctacgt 180
tttctaacct gcaagataat gtctgctact attttgacgc gaattaattt agcagttcaa 240
aatttgaagc atcatgtact taatactttt ggaagaggtt ttccaccaga tgcactttgc 300
ctagcaggaa tagaattaaa caaaagtcct cagaatttgc ccaaattttc tattaaagat 360
ataataggcg agggattttt atgggcagtt cctaaacata ggcggtcagt agaaaaacga 420
tggaaaagaa aatttggtga tccctattat gtcttgaaaa ttttattgcc tagaaaggat 480
ttaaggacct gtaatgtttg tggtgatg 508
<210>748
<211>788
<212>DNA
<213>Diabrotica virgifera
<400>748
cgtataacct aatcctcttt cttggcatca actttgcctc ccctaatcct accagttctc 60
ctggcagcga taagaccgac tttacgacca gcagatgttc ctctcttaac tgtggatgct 120
ttaccaatgt gttgatggtt accacctccg tgaggatgtt caacagggtt catagcaaca 180
ccacgtacct taggccagca gttacgttta actttgtatt tgtggtaagc acgacctgct 240
tttaagattg gtttgtcaat acgaccacct ccagcaacga tacccaccat ggccctgttg 300
tttgatggaa taactttctt ggctccagaa ggtaacttaa ctctggtttt ctttgtgtcg 360
tgattatggg caattacggt agcatagttt ccagatgcac gagctagccg accacggtca 420
ccagtttttt cttctaagtt gcatacaatg gtaccttcag gcatagttcc tacaggcaat 480
acatttccaa tttgaaggtt agctttcttt ccacagtaca aaaattgtcc agtgtacatt 540
ccttcggggg caataaacaa ttccttccta gtttggaact tgtagggatc tctgaaatgt 600
actactgcca atggagcacc acggccaggg tcatgtatga tatcttttac aacaccctta 660
atgtaaccat gtctttctga gaaatctaaa taacgtagtt tgggtgctcc tttcctcttt 720
tttgtgtggg atttgaatac agatcccgca cctttacgtt gtgcacgaat tacacgaccc 780
attgtaga 788
<210>749
<211>752
<212>DNA
<213>Diabrotica virgifera
<400>749
gaggcgtagg caaggaaaaa ctgattacta tgcccgtaaa cgattgattg ttcaagacaa 60
gaacaaatac aacactccca agtaccgttt gatcgtacgt atctccaaca ggaacattac 120
ttgtcagatt gcttactccc gtattgaggg agacaagatt gtatgtgctg cttactccca 180
tgaattgccc agatatggaa tcaaaactgg tcttaccaac tatgctgctg cctatgccac 240
tggtttactt ttggccagaa ggctcctcaa aaaattggga cttgacaatt tatacagtgg 300
caccactgat gttactgggg acgaatacaa tgttgaagct gctgaacaag gaccaggagc 360
attcaggtgt tacttggaca caggtttaaa ccgtaccagt actggcgccc gtgtctttgg 420
agccatgaaa ggagctgtcg atggaggctt aaacattccc cactctacaa aaagattccc 480
tggttttgac agcgaatcca aaagcttcaa tgctgaagtc cacaggaatc acatttttgg 540
catccatgtt gctgattata tgaaatcact ggaggaggaa gacccagagg cattcaagag 600
gcaattcagt caatacatta agctgggaat taatgctgac cagattgaaa atatgtacaa 660
gaatgcccat gctgccattc gtgcaaatcc tgaattagaa aagaaggctg aaaaggctcc 720
agcacctgca aagagatgga accgtaggaa gc 752
<210>750
<211>436
<212>DNA
<213>Diabrotica virgifera
<400>750
ccacataagg gcaaacttgt tagtattgta gacgtaatcg accagacaag ggttttagtt 60
gatggcccca acagcaatgt acccagagga cagcttaggt taaacgaatt gcatttaaca 120
aagttccgca ttaggtatcc attttcagct ccaactcgtg ttgtaagaaa agcatggact 180
gatgctaaga ttgatgaaaa atggaatgaa tctgtctggg ccaaaaaagt agctgccaag 240
gaaaagagat cacaactcac agatcttgac cggttcaaac ttcgtagggc tcgttcacga 300
agaaaccaca tccgtacagc aactttcctt gctttaagga aggccgcatc aagaaacggt 360
ttcctctatg gtaaaaagaa gatggctaaa ggaggtgaca aacctaaacc aagcaagaag 420
gcgaagaaag aaaagc 436
<210>751
<211>1072
<212>DNA
<213>Diabrotica virgifera
<400>751
tccagttcaa attccgtgcc aaattctacc ccgaagacgt cgccgaagaa ctcatccaag 60
atatcacttt acgcttattc tacttgcaag tgaagaactc cattctctcc gatgaaatct 120
actgcccgcc cgaaacttcc gtccttctgg cttcgtacgc cgtacaagcc aggcatggag 180
attatgataa atcaactcac acgccaggat tcctagccaa cgataggttg ttacctcaaa 240
gggtaatgga tcaacataaa atgtcaaaag atgaatggga gaatagcatc atgacctggt 300
ggaaggaaca tagaggtatg ttaagggaag atgccatgat ggagtacttg aagatagctc 360
aagatctaga aatgtacgga gttaactatt tcgaaatacg taacaaaaag cagacagaat 420
tgtacttagg tgtcgatgcg cttggactta acatttacga aaaagatgac caacttacac 480
ctaaaatcgg tttcccgtgg tcggaaatcc gcaacatctc tttcaatgat aggaagttca 540
tcatcaaacc catcgacaag aaagcacccg atttcgtttt ctttgctcca cgcgtgcgca 600
tcaacaagag aattctcgct ctttgtatgt gcaaccacga actgtacatg cgcagacgta 660
aacctgatac catcgacgtg caacaaatga aagcgcaagc gcgtgaagaa aagatggcaa 720
aacaacagca gaaagaaaag ctccagtctg aaatagcggc aagagaaagg gccgaaaaga 780
aacagcaaga gtatgaagat agaatcaaag ccatgcaaga agagatggaa agaagtcaag 840
ctaactatat ggaagctcaa gagatgatta gacgattgga ggaacaattg aaacaattgc 900
aggctgtcaa agaagagatg gaaaagagac agaacgagtt acagtccatg atggagcgtt 960
tggaagagag caagaacatg gaagccgccg agaggcaaaa attggaagag gagatcaggg 1020
ccaaacaaga ggaggttcta cgtatccaac aagaagtcga ggctaaggac ag 1072
<210>752
<211>864
<212>DNA
<213>Diabrotica virgifera
<400>752
gaatactatg aggacacctt cgccttggtc caaaattcca tgaaacttgg catctaaaat 60
catctgtgac aatttcttct ctacttgtag tactgggagt tttatggttt ttgctacata 120
ctctacttgt accctagaat atggttcgat aattctgcaa aggttctgct ccaacatatt 180
gtcatacaac gttcctaaat gtgctctaac aataacatca tcttctaatt catgtttaaa 240
ctgttttaca gcttgttgga aatctgctag tgatcttttg tgtgcagcct gtgcaactga 300
tttcatagcc tctatatctt gaccagcgta tttaaaggcc aatttaccac taacgatttg 360
ttggacgtct tccggactgt ttatcatgat ttttgacaaa agcatgtatt taagggctgt 420
gagggctttt ggggattcaa cactatcaaa accttcaaaa gcttcataaa aataagaata 480
agctgttttg aaatccttct catctgcagc gtgtaatact ccggattgta aatctaaagc 540
tgcctgcatc tttggagggc aatagatagc gttagctgtg gttcgtgctg aagttagtgc 600
agctctagcc ttcggtaaat tacttaaagc atgatatgtt ttgctttcaa gtagttgtac 660
ttccaccaac aaatttttgt catccaactt ttttaactct ttcagtaagg tcgattccag 720
ttgtagcgct tcgctgtaca ttccagtgtc aaaataaaga gcaatcagcc tggcttcaag 780
ggactgacgt agaaaagttc ttctctcttc ctttgcccat tctatacatt ctttgcagag 840
ttgtacttcg ataccaatac cagc 864
<210>753
<211>383
<212>DNA
<213>Diabrotica virgifera
<400>753
tcatcggtaa acacgaaata attcctagcc atggtgcgta tgaatgtatt gagcgatgct 60
ctaaaatcca taaacaatgc tgaaaagcgc ggtaaaaggc aggtccttat caggccttca 120
tcaaaagtag ttgttaagtt tttaactgta atgatgaagc atggttacat tggcgaattt 180
gaaattgtag acgatcacag aagtggaaag atagtagtaa atttgacagg aaggttaaac 240
aaatgtggag taatttcccc taggtttgat gtaccaatta cacatattga aaaatggaca 300
aataatcttt taccttcccg tcagtttgga tatgttgtgc ttaccacaag tggaggtatc 360
atggatcacg aagaagctag aag 383
<210>754
<211>923
<212>DNA
<213>Diabrotica virgifera
<400>754
gcaataccag gtaaaccaac attctgtctg gcttcaacaa tacgttccat ggcagagttg 60
gctagaccgt agttagcttg gccagcgtta ccacgtccac atgaaactga tgagaagtta 120
acgaaatagt ccaaattgtt cgccatttct ctggaaacca tatctaacat tttgctgccg 180
tcaacttttg gtttgcagac agtcttaaag tcagcttcag attggttttc catcattgcg 240
tcacgcaaga ctactgccag gttaaagatt ccaccaacgg gtcctaattc actggcttct 300
gtaagaagtc ttctggcacc tttgtcagtt gttgcatcgg ctgtagaaac aagtacgttc 360
acaccttttt ctctccatct tctgatacat agtgattggt atccagtttt aattccactt 420
ctggaggtca acaccatttt cttggcacct ctagtaacca accagttggc taattcaaga 480
ccaaatccac caagacctcc aaccaaaatg taactctttt caggatccat gtatgttctg 540
ggaatagcgc tgacagtctt aacagctggg cgagtggcag ttttaggttc ttcttctctt 600
atttggagca aaactttacc aatatgttta cctgaagcca taaatctaaa ggcttgttct 660
acttggtgtt cattgtatac agtctttgga agtggcctta cagctccgct cttaattcct 720
tcagttacca atctcattac ttgtctcttc tgaggactgt ctgaatcaaa gagagcgtca 780
agaaggattc cgtggaaagt agtgttcttc aagaagatgc tcattcccaa cgcagaattg 840
ttagaaagat ctacttttcc aatttccaag aagcgaccac caattgccaa acatcttaca 900
gaagcctgga gttggtgagc agc 923
<210>755
<211>1312
<212>DNA
<213>Diabrotica virgifera
<400>755
cgtggcatga actacgattc tctttcaagt ccgccatgtt gacattcgac aacttttttg 60
ggaggacagg tgaatgttat agcgtttttc aaagtgtaag gtgtttattt tcaaaaagtt 120
tataaaataa gcaatcacta tgggtaatgt gtttgcaaat ttattcaaag gcctctttgg 180
caaaaaggaa atgaggatat tgatggtagg actcgatgca gctggtaaaa ccacaatttt 240
atataaactt aaattaggag aaattgtaac aactattcca acaattggat ttaatgtgga 300
gactgtagaa tataagaaca ttagttttac agtatgggat gtaggtggtc aagataaaat 360
taggccattg tggagacact atctccaaaa cacacaaggc ctaattttcg tagtagacag 420
taacgacagg gaacgtatca ctgaggctaa agatgaatta atgcgtatgt tggccgaaga 480
tgaacttaga gatgccgtac ttctcatttt cgccaacaaa caagatttgc ccaatgcaat 540
gaacgctgca gaaatcaccg acaaactcgg tctccattca ctacgcaacc gcaactggta 600
cattcaagct acctgtgcaa ctagcggaga tggtctctat gaaggtctgg actggttgtc 660
caatcaatta aagaacgcca atcgctagaa cataggaaaa gagaggagtg cgcaaaaaag 720
tgtgcgagtg cagatggttt ttttcttgta ctcttgtcgt gtctactacc tcgcgcgcgc 780
gcgaaacgtt tcgtatacca tatgttgcaa tttttgtgtc cgatggggaa attcgtcatg 840
tttcactttg ggggttataa aattggctgt tggcgacaag tggtgtatga ggtgaatccg 900
aaaatagttt taggcaatat atcatatgaa tctcagcttt ctttaggttg agagttgttt 960
ttgtagtaaa agaaccttaa acatccttca ttggcgattt attatttttt aactgcatga 1020
aaatcttagt tttaatgttt ttatataaca cttttagatt gtactaactt ttaacattcc 1080
acaaatttct cataaaattg tgatatcttt tctaatacct cttatatcaa tgaacttatt 1140
tttgcaagcc aaaatatttt cttagaaagt aattttgtat catctatata aatttaattt 1200
tgggaattca attaaagact ttaactggca aattttaaaa tgttaaaggt tctagtcacg 1260
tatttagtct ggacttgcac tttatagcac ttgtcgcaga aagcatctaa cc 1312
<210>756
<211>442
<212>DNA
<213>Diabrotica virgifera
<400>756
taggttgggc aggttgtctc ctaagttcta ctttaacgtt cttttcttta gcttctttac 60
gtagcttttc gttggatttt actctttgca agaagtcttg acgacacttg gagtggttta 120
catgttcaat acggagattg attcttttgg ggatgattct tcctcgaacc cttttgttta 180
caattacacc taatgcatgt gcagtaacgt tgaaaacacg tcctgtctta ccatggtaca 240
ctttgtgggg catacccttt tgaactgcac cattaccctt gatatctaca atatctccaa 300
ctttgtagac tctcaaatat gtggaaagtg gaattacacc acgtttttta aacttgcggg 360
caaatagatc cctggttcct cggcggtaac ctttagagtt ggtcattttg taccttccaa 420
atcctaagaa acacagtaaa cc 442
<210>757
<211>404
<212>DNA
<213>Diabrotica virgifera
<400>757
gtgcgagaac ttcactatct attcaacatg cagttgtgtt taagaggaac cgcaactcat 60
ttccttgaat gccaaggatc tgagactgtt ggagaaatta aggaccgtat tgcatctttg 120
gaatcgctta aagcatccga aatcagtctt tatgctgctg gagttccagt ttctgaggaa 180
aggttggtag ccgattttga gaacacagac attgaattga ctgttggctt gcctggtggt 240
aaagttcacg gatctttagc tcgtgcaggt aaagtaaagg gacaaactcc aaaagtagaa 300
aagcaagaaa agaaaaagaa gaagactggt agagctaaga ggcgtattca atataacaga 360
agatttgtta atgtagttgc atctttcgga cgcaggaggg gacc 404
<210>758
<211>747
<212>DNA
<213>Diabrot ica virgifera
<400>758
gtcatctcag tttggtttat tgttgggtgt aatgtttaaa taaaataatt attattttgt 60
aaacctgtgc cattaaacaa ataaagcgat ggtgctaatt gcagcagcag tctgcacgaa 120
agcaggcaaa acaattgtgt ctcgacaatt tgttgaaatg accaaagcta gaatagaagg 180
tttgttggct gcctttccta aattaattcc tacaggaacc cagcatacat ttgtggaaac 240
agattcagta cggtatgttt atcaacccct agagaaactg tatatggttc ttattacaac 300
tagagctagc aacatattag aagatcttga aaccctccgt ctattcgcaa gagtgattcc 360
tgagtactgc aaatctttgg atgaaaatga aattgcagag aatgcatttt cacttatatt 420
tgcttttgat gaaatagtgg cattaggtta tagggaaagt gtcaatctgt ctcaaattcg 480
cacatttgtg gaaatggact cgcacgaaga aaaagtttat caggccgtga gacagactca 540
agagcgcgag gccaagaata tgatgagaga aaaggcaaaa gaacttcaga gacagaagat 600
cgaagcggcc aaaaaaggag ggaagacctc gtttggtagt agcggtggct ttggcagctc 660
gacaggttat actcctacgc catctgttgg tgatgtagct aaccagacaa atgatgttaa 720
aacttcttca tacacaccag cccctgc 747
<210>759
<211>1285
<212>DNA
<213>Diabrotica virgifera
<400>759
gcactgattc gtttatttca cctagaagat tgaaagccga ttctactcca tcatccgcaa 60
cctgattgtt atctctggct ttttgaactt catcagaatc ataagaaaga ataaagtagc 120
tatcttctgt ggccaaacat actaatttac cactatctga ccagtaaact gcttttggtt 180
gtatctcgat tcttctgact aaatcgagag tttcccaatc atagaaagtc aaaccagaaa 240
ccgatttgac tcccaaaagg tatccaccgt atataccttc agctccaaaa tcggacttaa 300
aattcttctt ctctttgaaa ttcttaaaaa ttctgatagt agatccggat tctctgatgg 360
catattcgct ggaatcttga gcccacacaa attcttgtgc gctaccaaac gctttgtttc 420
ttaaagccat tgctgtgtag attatgtatt ctccatcccc acagacaaca acaaaacggc 480
cattgggatt gtgttgaatt gtctgagggt atatctcgca agcacccata tcttttacag 540
aaactggaag gcgttctcca tctcttattt ccgcaccttc agctaacgcc ttgagatttg 600
cctgttgaag ttcagagtgt ctggcccaaa taattttgcc tccactggca tccatactaa 660
cagctggttc ttctctacca actttaacca aaatgctacc ttcatcataa cccaatgcca 720
cgttattgga tccctttagg cagaaaatag tccatactct ttcaaagcca taatttaagc 780
tactttctaa cctatgggtg ttggcatgcc acactctgac agtaccatct tcacttccag 840
taagagctac aggaagttct ggatggaaac atgcagcggt tacattttga gcatgtcctt 900
ccaaagtttg aacacaagtt ttgttttgat aatcccagat ttttactaat ctatcatcag 960
cgcctgagat taaataaggt ttatctccac cgtgataata gtccacacag ttaacgcctt 1020
tctcatgacc ttctagtgtg aaattcgctg tggacgctcc caattgccat actttcaatg 1080
ttctatctag ggatgcactg gcaaatgtgt tgttgtcttt tggatttatg gcgatttgca 1140
taatataatg agtgtgtcct tcgaaaactt gctgacaagc ccatgctttt tcccaattcc 1200
aaagcttgat aagcatatca tcactacttg ttaatatata aggttgtgta gggtgtacga 1260
caatacatct cacataatcc gaatg 1285
<210>760
<211>442
<212>DNA
<213>Diabrotica virgifera
<400>760
ggaaaacaac ccaaagaaga gtccaactat ctcttggacc tcaagttcgt gaaggtgaaa 60
tagttttcgg tgtagctcac attttcgcca gtttcaatga tacatttgtt catgttactg 120
acttgtctgg tagagaaact atctccagag tcactggagg tatgaaagtc aaagctgaca 180
gagatgaagc ttctccctat gctgctatgt tagcagccca ggatgtagct gaaaaatgca 240
aaacattagg aatcactgca ctccacatca aattgagggc tacaggtggt aacaaaacca 300
aaacccctgg accaggagcc caaagcgcac tcagagcttt ggctcgttca aacatgaaaa 360
ttggtaggat tgaagatgta actccaattc catctgattc cacacgtagg aagggaggtc 420
gccgtggtcg tagattgtag ac 442
<210>761
<211>959
<212>DNA
<213>Diabrotica virgifera
<400>761
cgatgttctg ccgtgactgt ctcagtctgt tttagactaa cagagacagc cacggcaata 60
ttcctttcca atacccactc tcctgatcaa cgggtggctt taatgcttta tctaatcctt 120
ctattctgtg gtatccatgg cagaagtttc cacagctggg actgcatccc tgggctcgtc 180
ccccgcatca tctctcaacg gatctgcagg aaggtcctca attgcagcag ctgcagctcc 240
tcctcctcta cgttcttcac cctcaataag ggacaagtag ggggaagttt cttcttcttc 300
gaggatttta aaggtctgac ctttgccagt gtatcctatg gagacatttt ttgttgtgag 360
gtcaacctct ggaggtagag tatctctaag agccctcaat ccatgtttga taagttcttc 420
taaagaacta gatggcaatt catccagatg tttttctaag tatgtcctgg cactctggga 480
tcgagctcca atggacatag ctttgcaatc gtagaaatta gcagaagggc acgtttggta 540
gatatgagaa ccagattcgt cataaccagc tactagaaga cctacgccaa atggtctgcg 600
gtcgtatctt tgggtacatg tctgcatttt gttacctaaa atactgataa gcctattcaa 660
tggcatataa gtatccaaag agtacttata attcaagcat tcgtttcgca tatatctact 720
aaggatccta gcatcagctg taagtcccga gatggtgata ccaatgtgat cgtctatgtt 780
gataattttc ttctggtagg cagacagttc tgaagaagcc ctcttcaaag cgataagtac 840
agcatgagtt ttacttttca gtcccactgt ggctgaacct aggttaactg cttccatggc 900
atattctacc tgatgcagac ggccctgggg gctccacact gtcacatcac tatcgtatt 959
<210>762
<211>429
<212>DNA
<213>Diabrotica virgifera
<400>762
ccttggcggg ggctgtagcc ttcttggctg tctttgtgct ctttttctgt tccttagcgg 60
cacgaatggc ttgctccctt tgggccttcc ttacttcagg cctttggttt ctcttggcca 120
tgatatcatt taaagaagca cctacaatag ccctttggaa tttctgtgtc cttctggtac 180
gttttttggt ggcttcttcc tcctgaccct tcttatgttt acgtctgtac aagacagtcc 240
atgttacttt acgggggttc cttttcatca agtgcgccct ttcacatttt gagttgagga 300
aagtgaaggt ctttccatca actttaacca ttgttttgcc atgtccgggg taaattttgt 360
acccgctgta agcacaaagt ccgatcttca ttttggaatg aaattactac ttaaatgaca 420
gatgacaac 429
<210>763
<211>828
<212>DNA
<213>Diabrotica virgifera
<400>763
cagtgacagg acggtgattc ttagccaagt agtcagcaaa ctcttggtat ggtgtcttag 60
ccaaagccat atccttccac aaatcaggtg tcaagtaagc ataggtcttt gcgatggctg 120
cgtatgtagc tttggcaaag ttacctaaag taccagtgga acctctagcg gatgtgtagc 180
aatcttcaat accagccatc tgcagaagtt tcttaggaac aggggcagaa acgattccgg 240
taccacgggg agctgggatc aaacgcacag taacagaacc acattttcca gtaaccttgc 300
aaggtacagt gtggggttga ccaatcttgt taccccagta tcctcttcgt actggaacga 360
cagacagttt ggctaaaata atagcacctc tgatggcagt tgctacttcc ttgctgcatt 420
ttacacctaa tccaatgtgt cctttgctat ctccaatggc aacaaacgcc ttgaaacgtg 480
tacgttgacc agcacgagtt tgcttctgga caggcatgat tttcaatacc tcatcattca 540
agtctgatcc aatgaaatga tcgatgattt cgaattcttt gattggcaaa gagaacaggt 600
agatttcttc aagagaacgg atctttccat ccttgactaa acgtcctagc ttggttactg 660
gtacccattc tttttgatct tcctttccac gaccacgtcc tctgccacga cctctacctc 720
ggcctctggg accacctcta ccgcctccac ggccaccacc tccaaaacct cctcggaatc 780
caccacgtcc accggctgga gctgcgtccg ccattgttta gttccttc 828
<210>764
<211>664
<212>DNA
<213>Diabrotica virgifera
<400>764
ggcagacgct gatgatctat tagattatga agatgaggaa cagacagaac aaaccgcaac 60
tgaaacggca actacagagg tacagaaaaa gggtgtcaag ggcacatatg tatcaataca 120
cagttctggg tttagagatt ttctgttaaa accagcaatt ctcagagcta tagtggactg 180
cgggttcgaa catccttcag aagttcaaca tgaatgtatt cctcaagctg tcattggcat 240
ggatattctg tgccaagcta aatccggtat gggaaaaacg gctgtttttg tattagctac 300
actccaagta atagatccta cagaaaatgt tgtatatgtt ctcgtcatgt gccataccag 360
agagttagcc ttccagataa gcaaagagta cgaacgtttc agtaaatata tgcccaatat 420
taaagtaggg gtcttctttg gtggcttgcc tatccagaaa gatgaggaaa cgttaaaaaa 480
taattgcccg catatcgttg tgggtactcc aggaagaatt ttagcattgg tcagatcgaa 540
aaaacttaat ctcaaacatc taaagcattt tattttggat gaatgtgata aaatgttgga 600
gttattagac atgagacgtg atgttcaaga aatatatcgt aacactcccc acgaaaaaca 660
agtc 664
<210>765
<211>434
<212>DNA
<213>Diabrotica virgifera
<400>765
caagagagga cgtggtggtt ccgcgggagc gaagtttagg atctcccttg ctcttcctgt 60
aggagcagta attaattgtg cagataatac aggagcaaag aacttatatg ttatcgctgt 120
acaaggtatt ggtggacgac ttaaccgtct gccagctgca ggatctggtg acatgattgt 180
agccacagtc aaaaagggta aaccagaact caggaaaaaa gtcatgcctg cagtagttat 240
caggcagcgg aaaccattta gaaggaagga tggtgtcttc atttactttg aagataatgc 300
tggggttata gtcaataaca aaggtgaaat gaaaggatca gccatcactg gtccagttgc 360
aaaagaatgt gcagatttat ggcccagaat tgcatcaaat gcaagcagta ttgcttgatg 420
tgtatatgtt taag 434
<210>766
<211>1283
<212>DNA
<213>Diabrotica virgifera
<400>766
ccaccctcag gcgtaggtat gaatgcaggc gttaatttga gtggcatttg cattttcttg 60
cttatactta gcctatagtt ccttaaaact gtcatgatac ctacttttac ttgaatgatg 120
ccaaacctca tacctaaaca taacctaggg ccttctccaa aaggaacata tgtgtatgga 180
ataatgttct ttctgttctc ttctgaaaat cgttctggat cgaatacatc tggattatca 240
taatattctt catcatagtg aatacctatg gtaggtatga cgactcttgt gcctttttca 300
actactatgt ttgtctcagg tatctggtaa tcttgagaac attctctggt gagaaaagga 360
attggtggat atttccttaa tgtttcatcg atgcattgac ccatatattt aagatcgcag 420
agggactcgt aggtgatttc gccgttgtga ttgtttagta cttcttctat ttcttctcta 480
actctttctt ggatgtcggg attggcagcc atctcgtata aaacccatga catagtggtt 540
gcgctggttt cgtagcctgc tacgaaaaac acgaaacttt gagccactat ttcgtccatt 600
gtgatagctg tctcgtcgtt taattttcct cttgtttctg gatcgttctt aatattgatc 660
agtccttgta agaaatcatt acgatcaatt ttactatttt ccctatacgt aacagtatca 720
acaaactttc gtgaaaaatt ccttaatagt cttcggtatc caagtcaatc tgatagcact 780
agctaatttt ggaaagttga ttgcaacagc aaatttgacg tcatccgaaa gtgttctgtt 840
tacgattcta ttggccatct gcttgaacgg attgtcatct tcgaaactgt tgcagtctat 900
tccaaatgcg catgaaccta ttacgctgat ggtgaaacta cccataaatt gtttaagatc 960
aacgggctcc tctccattaa tctttgtgct taagcaattc tccaacattt ttccacatga 1020
aatgacagtg tgaaacatcg attttaactt tcccgatgaa aaatttggcg taaatttact 1080
tctaaggctc ttccattttg tcccaccaag tgcaaataag tgagcgccta taggttcatc 1140
tttttcattg atatatattc ctcgggcatt aaagtaatta aaatccttgg ctaaaacccg 1200
ctttataaga tcattatcta ctggcatata aattggagat atagcggcat aaagtccgat 1260
gtgtttgtgt ccatctcgct tag 1283
<210>767
<211>685
<212>DNA
<213>Diabroticavirgifera
<400>767
cagactacgg ctcacacgag agtaggttgt acaaacatga tttacaacaa ttttgcacta 60
atttcaatag taacatgaat ctagaagtgc ccccctttga aagtcctgcc accaacttat 120
ctagatttac aaaagatgat actggaaagg ctctaaaaat taattttgat catggtacca 180
caaccttggg attcatgtat cagggaggag ttgtacttgc agtagattcc agagctactg 240
gaggccagtt tattggttca caaacaatga agaaaattgt agaaatcaat gattttctgt 300
taggtactct ggctggaggc gcagcagatt gtgtctattg ggacagagtt ttggccaagc 360
agtgtagaat gtatgaactc agaaatagag aacggatttc agtagcggct gcttctaaat 420
taatggcaaa tatggtttac aattataaag gaatgggatt gtcaatgggt atgatgttag 480
ctggatggga caaaagggga ccacaattgt attacgtgga ctcagaaggt ctgagaacag 540
caggaaaagt tttcagtgtt ggttccggttccatatatgc ttttggtgta ctagactctg 600
ggcacaaatg ggatcttacg gacgaagaag catatgattt gggccgtaga tcgatttatc 660
acgctaccca cagagatgct tactc 685
<210>768
<211>859
<212>DNA
<213>Diabrotica virgifera
<400>768
gcgtactaag ggacccgaca cagctttaaa actaccagcg gttactcctc atacaagatg 60
ccggttgaaa ctattaaagt tggaaagaat aaaggattat ttgcttatgg aagaagagtt 120
catcagaaac caagaaaggc tgaaaccaca agaagaaaaa aatgaggagg agagatcgaa 180
ggttgatgat cttagaggaa ctcccatgtc tgttggtaca ttggaagaaa tcattgatga 240
caaccatgcaattgtttcca catcagtagg cagtgaacat tacgtgagca ttttatcctt 300
tgttgacaag gatcaacttg aaccaggatg ttcagtactt ttgaaccata aggtgcacgc 360
cgttgtaggt gttttaggtg atgatactga cccaatggta acagtaatga agcttgaaaa 420
agctcctcaa gaaacctatg ccgatattgg tggtctagat acacagattc aagaaattaa 480
agaatctgtt gaattacctc ttacccatcc tgagtattat gaagaaatgg gtatcaaacc 540
acctaaaggt gttatccttt atggccctcc aggtactgga aaaactcttc tggcaaaagc 600
tgttgctaac cagacttctg caacattttt gagggttgtt ggttcagaac ttatacaaaa 660
atatttgggt gatggaccta aactagtccg agaattattt agggtagctg aagagcatgc 720
tccttccatt gtatttatag atgaaatcga cgctgttggt acgaagaggt acgattccaa 780
ttctggcggt gaaagagaaattcagagaac tatgttagag ttattgaatc agttggatgg 840
attcgattca aggggcgac 859
<210>769
<211>586
<212>DNA
<213>Diabroticavirgifera
<400>769
cgtcggttca ttctaaaacc tatgtaacgc ctaggcgtcc atatgagaag gcccgtttag 60
atcaagaatt gaaaatcatc ggagcctttg gtctccgaaa caaacgtgaa gtgtggagag 120
taaaatacac tctagccaaa atccgtaagg ccgccagaga actgcttact ctagaagaga 180
aagaacccaa aaggttgttt gaaggtaatg cactcctacg tcgtttggtt cgtattggag 240
tactagacga gaacagaatg aagctcgatt acgtattggg tctcaagatt gaagatttct 300
tggaaagacg tctgcaaaca caagtcttca aatctggtct agctaagtca atccatcatg 360
ctagggtatt gatcagacaa cgacacattc gggtccgcaa acaagttgtg aacattccct 420
ccttcatcgt ccgtttggat tcacaaaaac acatcgactt ctctctgaaa tcacctttgg 480
gaggcggtcg tccaggacgt gttaagagga agaacctcac caagaagagc ggtggtggag 540
gtgcagctga agaagaggaa gactaagctg tatgtcgtgc tagttg 586
<210>770
<211>563
<212>DNA
<213>Diabrotica virgifera
<400>770
ggatagactt cttcgactag aggtggaatg ccaggtttaa ctcaggcacc gccgccttct 60
gatgctcctg ttgtggatac tgccgaacaa gtatacatat cctccttagc actattaaaa 120
atgttgaagc acggccgagc tggagtaccc atggaagtaa tgggtcttat gttaggagaa 180
ttcgtagatg actataccgt tcgtgtaatc gatgtatttg ctatgcctca gactggtacc 240
ggtgtcagtg tagaagctgt tgatccagtg tttcaagcaa aaatgcttga catgttaaga 300
cagactggta ggccagaaat ggttgtgggg tggtatcatt cccatccagg tttcggatgt 360
tggttgtctg gagtggatat caacacccag caaagttttg aggctctctc ggaaagagct 420
gtagcagtag tagttgatcc aatccagtca gtgaaaggca aagtcgttat tgatgccttt 480
aggttaataa atccgaatat gatggtattg ggccaagaac ctcgccaaac tacatccaac 540
ttaggacatc tacagaaacc atc 563
<210>771
<211>1216
<212>DNA
<213>Diabrotica virgifera
<400>771
cctgatttag aattagcaca ttgtaagttt ctgttaactt taccagaata tcgcagtgat 60
aaaaacgtcc actccaaaat aacagaagct ataaagaaag atgatatggc cccatggtat 120
gaacttattt gtaaagatgc tggttggaaa cttgatgcta atctactgag tgcattaaaa 180
gctaagaacg ctgagaagat caagcttttg gatgaagcca tagaagatgc cgagaaaaat 240
ttaggtgaaa tggaagttcg agaagcctac ttaagaaaag cagaatacta cagccgaatt 300
ggtgataaag acaacgcagt tagtactttc agacaaacat atgataaaac tgtatcactt 360
ggtcatcgtt tagatattat ttttcacttg ataagaattg gtttgttctt catggaccat 420
gatctcatca caagaaatat tgaaaaagct aaaaccctta ttgaagaagg aggtgattgg 480
gatagaagaa atcgtttaaa agtgtatcaa ggtgcatatt gtatgtcagt acgagacttc 540
aaatcagctg ctaacttgtt tttggacaca gtaagcactt ttacatcata cgaactaatg 600
gactataaag catttgtcag gtatactgta tacacctcta ttattagttt gccaaggaac 660
caattaagag ataaagtggt caaaggttcc gaaatattgg aagtactgca ttcagaacca 720
tttgtaaaag attacctttt ttctttatat aattgtcagt atgctgaatt tttcacaaat 780
cttgcagaag ttgaaacagt tctcagaaaa gattatttct tgaatcctca ctatcgtttc 840
tatgtaagag agatgaagat acttgcttat acacaattat tggagtcata taggtctctt 900
actttacaat acatggcaga agcctttgga gttactgttg aatacattga taaagaactg 960
tccacattta tagcagcagg aagattgcat tgtaaaattg atcgagttgg gggaattgtt 1020
gaaactaata gaccagattt aaagaatgcc caatttaatt ctgtggtaaa acaaggagat 1080
ttactgctga atagagtcca aaaattatct agggtgatca atatctaaaa aatgtattct 1140
taagtttata agtaaattat aaaacatact gataatttga cttgattgta ctaattttct 1200
atgtttatct agtgct 1216
<210>772
<211>617
<212>DNA
<213>Diabrotica virgifera
<400>772
cctctggaaa gttggttcag attgaatatg cattagccgc tgtagcggcg ggtgctccat 60
cagtaggaat taaagcatca aatggtgtgg ttattgcaac agagaacaag cacaaatcaa 120
ttctgtatga tgaacacagt gtccataaag tagaaatgat cacaaaacac attggtatgg 180
tttattctgg tatgggtcct gactatcgcc ttcttgtgag acaagcacgc aagatggctc 240
agcagtatta cctagtatac catgaaccca ttcctacagt acagttggtg caaagagtag 300
cgactgtaat gcaagaatac acccaatcag gaggagttag accatttgga gtgtcgctac 360
tgatttgtgg ttgggataac aacagacctt acttgttcca atgcgatcct tctggagctt 420
actttgcttg gaaagctact gcaatgggaa agaattatgt caatggaaaa acgttcttag 480
aaaaaaggta cagtgaagag ctagaactcg acgatgctgt gcacactgct atccttaccc 540
tgaaagaaag ttttgaaggc cagatgacag ctgacaacat agaagttggt atttgcgatg 600
ctaatggatt cagaagg 617
<210>773
<211>736
<212>DNA
<213>Diabrotica virgifera
<400>773
gtctcagcct gaagcaactt tccttaaaga attaacatat aggagtacca atacaaaaga 60
accaggagta gtaactgctc cctcgtctaa ccttaataca gcctttcgtc taattaaaga 120
agttcaaagg aaatttaaga cacgagaagc tgaagaaaaa gaaaaagagg atttggttaa 180
acagggcaca ttagtacttt cacagaataa aggaaatcct aaattaaaag atctgtatat 240
taggccaaat attgtttcaa aacgtatgac aggatcatta gaagctcaca ctaatggttt 300
taggtatact tctgtgaggg gtgataaagt agacattctt tacaacaaca tcaagaatgc 360
cttctttcaa ccgtgtgatg gagaaatgat aattctgtta cattttcacc taaaacatgc 420
tatcatgttc ggaaaaaaga aacatgttga cgttcaattc tgtacggaag tcggagaaat 480
taccacagat ttgggcaaac atcaacacat gcacgatcga gatgatctgg ctgctgagca 540
gtcggaaaga gagctcagac aaaaattgaa aactgcattc aaaagttttt gtgaaaaggt 600
tgaatctatg acaaaacaag aaattgaatt tgatacacca ttccgggagt tgggatttcc 660
aggagccccc ttccgctcta cagtccttct ccagcctaca tctggttgtt tggttaacct 720
gactgaatgg gcctcc 736
<210>774
<211>718
<212>DNA
<213>Diabrotica virgifera
<400>774
gactggtacg atgtgaaagc tccatcaatg tttgccaccc gccaggtcgg caggactttg 60
gttaaccgta cccaaggaac caaaattgcc tctgaaggtt tgaaattcag agtttttgaa 120
gtgtctttag ccgatttaca aaatgataat gacgccgaaa ggtctttcag aaagttccgt 180
ttgatagctg aagatgttca aggtagaaat gttttaacaa atttccacgg tatggattta 240
accactgaca agctgaggtc catggttaag aaatggcaaa ccttaattga agcatctgct 300
gatgtcaaga catcagatgg atatttactt agggtgttct gcataggctt taccaacaaa 360
gaccaacttt ctcaaaggaa aacatgctat gcacaacata cacaagttag agctatccgt 420
aaaaagatgg tagacattat taccagagac atccagggct cagacatcaa agaagtagtg 480
aataaactcc ttcctgacag catagccaag gatattgaaa aggcctgcca gggtatctac 540
cccctacatg atgtgtacat ccgtaaagtt aaagtattga aaaagcctcg ttttgaactc 600
tccaaattgt tggaattgca tggtgatgga ggcaaaggtg gtgctggtga ctccactggt 660
gaagctggtt ctaaagtcga caggcctgag ggatacgaac caccagtaca agaatccg 718
<210>775
<211>598
<212>DNA
<213>Diabrotica virgifera
<400>775
gttgagaggt gcatttgcag gatgagttcc ttaaaacttc agaagaggct agcagcctct 60
gttatgcgat gtggtaaaaa gaaagtatgg ttggacccta atgaaatcaa cgaaattgcc 120
aacactaact caagacagaa catccgtaag ttgataaagg atggtcttat tattaagaag 180
cccgtagctg tacattcccg tgcccgtgtt cgcaaaaaca ctgaagcccg caggaaagga 240
aggcactgcg gttttggtaa aaggaagggt actgctaatg cccgtacccc acaaaaggaa 300
ttatggattc aacgcatgag agttttgcgt cgtctcctta aaaaatacag ggaagctaaa 360
aaaattgaca gacatctata ccactcactc tacatgaagg ccaagggtaa cgtattcaag 420
aacaagcgtg tccttatgga atacatccac aagaagaagg cagagaaagc ccgtgccaag 480
atgttggcag accaggccaa tgccagaagg atgaaggtaa aacaggctag agaaagacgt 540
gaggaacgta tcgccacaaa gaaacaagaa gttttgcaga actacatgag ggaggatg 598
<210>776
<211>683
<212>DNA
<213>Diabrotica virgifera
<400>776
gagatagaag agccctacag ccagatgcca tgtattatcc agacttaatg cctcccccta 60
gttatcctga taatcctatt aattgtgtta ctactagatt tgtaaaaact gctacaaata 120
aaatgaggtg cccaattttc tgtatggcct ggacacccga gggcagaaga ctggtaactg 180
gtgctagttc aggagaattc acattatgga atggattaac atttaatttc gaaactatct 240
tacaggcaca tgacagtcca gtcaggacga tggtatggag tcacaatgac agctggatga 300
taacaggtga ccattctggt tatgtcaaat attggcagtc gaacatgaac aatgtgaaga 360
tgttccaagc gcacaaagaa gcacttcgag gcataaggta tctacaactt ctctccgtaa 420
ttataaaact tgtacactta cttatatttt actttatcaa taaaagatcc ctccttctcc 480
ctacattagt gcaaaataaa gaaatcaatt ttaaataacg ccatcaatat tttccaaaca 540
atacattgca tttcaaattg tctagttgga aacattgtac ttaactgact ctattagagt 600
ttctgaatag accatacaaa actaattccc ttaaagtaag atggtgaatg gacattgatt 660
ccgaaggcaa cagtccccaa aca 683
<210>777
<211>321
<212>DNA
<213>Diabrotica virgifera
<400>777
ccacgcgtcc gttttatagt aaagccagca tggcaccaag gtacgagatc gcagtcggcc 60
tccaaagggg tcacaaaacc accaaaatct cagacaaatc caaactgaat aaagttcgtc 120
ccgctaggtt gaaggggatc caaaccaaac acaccaaatt tgtcagagac atcatccgtg 180
aagtcgtagg acatgctcca tatgaaaaga gagccatgga attgttaaag gtgtcaaagg 240
ataagagggc cctgaaattc ctgaagcgtc gtcttggcac acacatcaga gccaagagga 300
agcgtgaaga actatccaac a 321
<210>778
<211>311
<212>DNA
<213>Diabrotica virgifera
<400>778
ccagccccac aagtacaatc tggtgggccc atggacgtaa atcaagcact ccaagaggtc 60
ttgaaaacag cccttattca cgatggagtc gttcatggtt tgcatgaggc tgctaaagct 120
ttggataaaa gacaagccgt actttgtgtg ctcgctgaaa actgtgacga gcctatgtat 180
aagaaactag tctcagcttt atgctcagaa catcaaattc ctcttattaa ggtagacaat 240
aacaaaaaat taggcgagtg gtcagggtta tgcaaaattg ataacactgg taaagcacga 300
aaggtcgttg g 311
<210>779
<211>501
<212>DNA
<213>Diabrotica virgifera
<400>779
gtgccagtgc ttaattttcc tcgatgatcc attgtctgtg gctgaaattt tagacaggct 60
tgtaactggc aaggaggata ctgaacttat ggcatatcaa attgcttttg atctctatga 120
gtcagctact caacagtttt tggaaagagt attagttgca ttaagagcca cagcaccagt 180
tccatctttg ctggaagaaa aagcaaagcc aaagccttct ggtgaaggag agggtgctat 240
gtcaaccgag actggagaac catctacaga aacaaaagaa gaaaaattaa aagaagaaaa 300
atctctggat agtttgtctg atcaggataa ggaacatcag aaaagaattg agaaacttca 360
tactatactc tcaggggagg tctctataga actgcacctt caattcctca tcaggtcaaa 420
tcatgctgat ctactgattc ttaaacaaac aaaagagact gtcagagtta gtatttgcca 480
cactgctact gtaatcgcaa a 501
<210>780
<211>370
<212>DNA
<213>Diabrotica virgifera
<400>780
ttgccgttca aaatgccatg cagcatttaa aaagaaaaag aatccacgta aagtaaaatg 60
gaccaaggcg tacaggaaaa cagtaggcaa agagttaaca atagatccat catttgaatt 120
tgaaaaacgt agaaacatac cacttaaata taacagagaa acctggtcaa aggctgtaga 180
agcaatgaaa acggtagaga aaataaaaca gaaaaggcaa ggagcctaca tcatgcaaag 240
attacgtaaa ggtagagaaa tcgaacaaga acgagacatc aaagaggtac aaagggatct 300
gtctcttatc agatccccag ctgttggact taaagaaaga aaacaagaag aatctatggc 360
gcaagatcac 370
<210>781
<211>673
<212>DNA
<213>Diabrotica virgifera
<400>781
ttggagacaa gttcgcgtct aggcacggac aaaagggaac gtgcggtata caataccgtc 60
aagaggatat gatttttagt gctgaaggta ttacgccaga cattatcatt aatcctcacg 120
ctatcccctc ccgtatgacg attggtcact tgatcgagtg catccaaggt aaggtatcat 180
ccaataaagg agaaatcggt gatgctacac ctttcaacga tgccgtcaac gtacagaaaa 240
tctccacttt gttacaagaa tatggttatc aactcagagg caacgaagta atgtacaacg 300
gccatactgg acgtaagata aatgctcaga ttttcttagg acctacctat tatcaaagat 360
tgaagcacat ggtggacgat aagattcatt caagagctag aggaccgttg cagattctcg 420
tcagacagcc tatggagggt cgtgcaagag acggcggtct acgtttcggt gagatggaac 480
gagattgtca aatttcacac ggtgcggcac aattcttaag agagaggctg tttgaagttt 540
ccgatcctta tagaatccat atttgcaact tctgtggttt gatagctatc gccaatttgc 600
gtaacaacac ctttgaatgt aagggttgca aaaataagac gcagatatcg caagttagac 660
tgccttatgc tgc 673
<210>782
<211>411
<212>DNA
<213>Diabrotica virgifera
<400>782
tagtaactgt aaaaggaccc cgaggtaatc tgaagagatc cttcaaacat cttaccctgg 60
acattcgaat gatcaacccc aggttactga aagtagagaa atggttcggt accaagaagg 120
aattagctgc tgtcagaaca gtatgctctc atgttgaaaa catgttaaag ggtgttacaa 180
aaggatacca atacaagatg agagcagcat atgctcactt tcccattaac tgtgtcacca 240
ctgaaggaaa cacagttatc gaaattagaa atttcttggg agaaaaatac atcagaagag 300
taaagatggc cccaggtgtt acagtagtaa actccaccaa acaaaaggat gaacttatca 360
ttgaaggaaa ctcattggag gatgtttcaa agtcagctgc ccttattcaa c 411
<210>783
<211>553
<212>DNA
<213>Diabrotica virgifera
<400>783
agagaccatt ggcataaacg aaggtccaca ggaggcaaga ggaagcctct ccgtaagaag 60
aggaagttcg aattaggacg tccagccgca aataccaaac ttggagcacg tagaattcac 120
tatgtccgta cacgaggagg taacttgaag taccgtgcat tgaggattga aaaaggaaat 180
ttcgcatggg gcagcgaagg tactgctcgt aaaacacgta ttattgatgt cgtttacaat 240
gccagtaata acgaattggt acgtaccaaa acattggtaa agaatgccat cgttgttatt 300
gacgcaaccc ctttcagaca atggtacgaa agccactata ttttaccttt aggacgcaag 360
aagggggcaa aattgacagc ggaagatgaa gaaatgttca ataagaaacg tagcaaaaaa 420
gtacagaaaa aatatgaaac taggcaaaaa acagctaaag tagaacctgc attagaagaa 480
caattctcaa ctggaaggtt attagcttgc ttagcgtcaa ggccaggaca atgtggtaga 540
gctgatggtt acg 553
<210>784
<211>902
<212>DNA
<213>Diabrotica virgifera
<400>784
gacccatgaa tgcagctttg tcagcagctg tctggaatct accatgaccg aatttagatg 60
aggtatcaat gaatttaaga ttgatcttct ccaaagcaat acgtttagtg tggactaaca 120
atgacttcct caatgtaata acacgtttct ttggtcccat acaacgtcct ttaatcataa 180
caaagtcatt gttaacttca ccataatgag gaaaaccacc cattggggta atagtttttt 240
cactaagatc gtaggcagtg gctgcattat ttttgacaac cttgccatct ttagtgtgga 300
ttccagcacc aattctgtag atctttttgt tcatctcagt tctgtgatgg taaccctttt 360
gaccagcacg agcaactgtg aatgatactc ttgaaggatg ccatgctcca atacaggcaa 420
ctttacgaag acctttgtgt gtcttacggg gcaatttctt tgtgtgccaa cgagaagtaa 480
cacctttgta tccatgaccc ttagtaacac caatgcaatc aatcatttca tcttgagcaa 540
aaacgttggc aataggaata ggcttttcaa ggtgttcttt agcccaagct actttgtcag 600
ctacactacc accattcaat tgaatttcca taatgtgggc tttcttttga cgttgtttca 660
acaatttcat ctgagtatga gcaataactc tgacaacttt acagtattta acaatcttct 720
ttaagtcctt ttcgatggac ttctttccta aatcatcact ccatttcttg gaagctttgg 780
taaatgcctt cttcttgctc ttgtaccagt tcttgtagaa gcgcctgcgg caatcttcag 840
agagatgctc agcccaaact gtggctaaag ccctaagacc atgtggagtt tcgatgtaac 900
cg 902
<210>785
<211>1026
<212>DNA
<213>Diabrotica virgifera
<400>785
agaacaacgg gagcttcggt tcgcactcaa aatgttatgg cagcctctac tatcgcaaat 60
gttgtaaaga gttcattggg accagttggt ctagataaaa tgttggttga tgacattgga 120
gatgtgacag taactaatga cggagctacc attttacgtc ttttagaagt tgaacatcct 180
gccgccagag tattagtaga attggctcag ttacaggatg aagaagtagg agatggtaca 240
acttcagttg ttatcatagc tgcagaatta ctaaagaatg ctgatgaact cgtgaaacaa 300
aagatacatc caacttcaat tataagtgga tacagattag catgcaaaga ggcttgtagg 360
tacattcagg atcatttgac tattccagtc gaagaattgg gaaaggagtg catcataaat 420
gttgccaaaa cctcgatgag ctcaaaaatt attggagctg atgctgatct tttttcacaa 480
atcgttgtcg atgccgccaa tgctgttaaa gtgacagatt caagaggaaa tagcatgtat 540
cccataaagg ctgtcaatgt cttgaaagca catggtaaaa gcgccagaga gagcttcctt 600
gtaccaggtt atgcattaaa ctgcaccgtt gccagccaag cgatgcccaa aaaaattgtt 660
aacgccaaaa tcgcatgttt agatttttca ttgcagaagg ctaaaatgaa gatgggtgtt 720
caggttttga ttactgatcc aaatcaactg gaagcaatcc gcacaagaga gctcgacatc 780
accaaagaac gcatccagaa aatcctctct accggtgtta atgttattct tgcgagtggt 840
ggtatcgatg atctttgcct aaaatacttc gttgaaaatg gagcgatggg tgtaagaaga 900
gtaaagaaag ctgacttaaa acgcattgcc aaagcaactg gtgccacttt cctaacttct 960
cttagtaaca tggagggaga tgaaagtttt gattctagca tggtaggaga ggcagcggaa 1020
gttgtt 1026
<210>786
<211>469
<212>DNA
<213>Diabrotica virgifera
<400>786
cacattcgca aactctgcct taacatttgt gtaggagaat ctggtgacag gcttactaga 60
gctgctaagg tattggaaca acttacagga caacaacctg tattctcaaa agccagatac 120
actgtcaggt cttttggtat ccgtcgtaat gaaaaaattg ctgtacactg tacagtaagg 180
ggagccaaag ctgaagaaat tttagaaaga ggcttaaaag ttagagaata tgaattgaga 240
cgtgataact tctctgcatc tggaaacttt ggatttggta ttcaggaaca catcgatctt 300
ggtatcaaat atgatccaag tataggtatt tacggtcttg acttttacgt agtattagga 360
agacccggat tcaacgtagc ccacaggagg tcaaagactg gtaaagttgg attctcacac 420
agattgacaa aagaggatgc catgaagtgg ttccaacaga aatacgacg 469
<210>787
<211>1159
<212>DNA
<213>Diabrotica virgifera
<400>787
tatgagcgcc catggacagt atgtatacga atcaagtatg aatgtaggct ttcgcagccg 60
ttttgtaatg gtacattgtt ttctgagcgt ataggtcgtg gtctggaatt atctattgtc 120
atcttcaact gtagtagaca ttatcaaatt tggaatttcg tgtgaatttg tttgttgccg 180
taccaaacaa tccggaaatt tctatacttt cagttggtgt aaagggttat cctaactatc 240
tttatctttg tgctttgtac attttactaa catagattaa tcaataaata aaattaatca 300
ataatactta ttaatttaat gatataatta aaacttttca tggaataaac tttcaagttt 360
gtgaaagcat aaatttggaa ataatattac aaaaaagcac atcatattat actcctttag 420
gataaattag tatattgcca tcatttactt tttacacgtg tttattacat aacgggccca 480
cattgtttta aatgaaaatt tctacaaatt tgtctctaca tttaataatc atctagatca 540
aattcttcgc cgttatccat atcgtctagt tgtaaacttt ggaagtctac tttgtaccgg 600
agcaaacctc caattccacc aaaccctcga acaaattggg agccctcttg agatttgtct 660
gtaataattt ctaaagtggc accgaagttc ttgtaattat tcgccaacca ttcaagaaga 720
ggttgacact cgaccaattc caattctaca ccagtctctt tatccgaaaa atgtgattta 780
tctttttctt gttcaggagt taaatgcagt atagtttccg aacctgtagc atggtttttc 840
aatacatatc gctgaatatc taaattctcc caacagatta gtgtttctac agcacctaat 900
tccaagcccc taagagtatc ttcaactcca aaacagtatt tccccgtatc ttggctaatt 960
tcatcgaaat atctgcctat cagtttcttt tcttgaataa actttacatt ttgaagtgat 1020
tcagctgcta attcgatggc ttgattaaat ccattctcac caccatacga gacatctact 1080
agtttgatta ctttagcttg taaccctgga tcaaacatat cagattgact aagttcagtc 1140
ttaaaatcgg cactacccg 1159
<210>788
<211>1261
<212>DNA
<213>Diabrotica virgifera
<400>788
cctgaagaaa ctcaaagcgc agatgtcgag accttcgcct tccaggctga aatcgctcag 60
ctgatgagtt tgatcatcaa cacattctac tctaataaag aaatcttcct tagagagttg 120
atctcaaact cctcagatgc cttggataag atccgttacc aatcactcac aaatccatcc 180
tgtctcgact ctggaaaaga tttgcacatt aaaattgttc caaacaagag tgaaggaacc 240
ttaaccatca ttgatactgg tattggtatg acgaaagcag atttagttaa caaccttggt 300
acaatcgcaa aatcaggaac aaaggcattc atggaggccc tccaagctgg agctgatatt 360
agtatgattg gtcaatttgg tgtaggtttc tactcagcct acttagttgc tgatcgagta 420
gtggttgtat caaaaaataa cgatgatgaa cagtacattt gggaatcatc tgcaggaggt 480
agcttcacaa taagaccaga tgttggagaa ccattgggac gtggtacaaa aattgttctg 540
tacatcaaag aggatcaaac tgaattttta gaagagaata aaattaagga gattgtaaag 600
aaacactccc agttcattgg ttaccccatt aaattgcttg tagaaaaaga aagggaaaag 660
gaactaagtg atgatgaagc agaagaagaa aagaaggaag aagaggaaga caaagataaa 720
cctaaaattg aagatgtagg agaggatgaa gatgaagata aaaaagatga gaaaaagaaa 780
aagaaaaaaa ctattaaaga aaagtacact gaagatgagg aactaaacaa aaccaaacca 840
atctggacaa gaaatgctga tgatataacc caagaagaat atggtgaatt ttacaaatca 900
ttgacaaatg attgggaaga ccatttagca gtaaaacatt ttagtgttga gggtcaactt 960
gagtttagag ctttattgtt tgttcctcgt cgtgtacctt ttgatttgtt tgaaaacaag 1020
aagaagaaga acaacatcaa attatatgta cgcagagttt tcattatgga caactgtgaa 1080
gaccttatcc cagaatatct taactttatt aagggagtag tagactctga agatttacct 1140
ctaaacattt caagagaaat gttgcaacaa aataagattc ttaaggtcat ccgcaaaaat 1200
ttagttaaaa aatgtctgga actttttgaa gagcttactg aggacaaaga tggatggaag 1260
a 1261
<210>789
<211>905
<212>DNA
<213>Diabrotica virgifera
<400>789
gtgtgaagaa gaagttgccg ctttagtcgt agacaatgga tccggtatgt gcaaagctgg 60
ttttgctggg gatgatgcac ctcgtgctgt attcccttca attgttggac gcccaagaca 120
tcagggtgtg atggtaggaa tgggacaaaa agattcctat gtaggtgatg aagctcaaag 180
taaaagaggt atccttacct taaaataccc catcgagcac ggaatagtca caaactggga 240
tgatatggag aaaatttggc atcatacatt ctacaatgaa ctcagagtag ccccagaaga 300
acaccctgtt ctgttgacag aagctcctct caaccccaag gccaacaggg aaaagatgac 360
acaaataatg tttgaaactt tcaacacccc agccatgtat gttgccatcc aggctgtact 420
ctccttgtat gcatctggtc gtacaactgg tattgtgttg gattctggtg atggtgtatc 480
ccacactgtc ccaatctatg aaggttatgc tcttcctcat gcaatccttc gtttggactt 540
agctggtaga gacttgactg attacctcat gaaaattttg actgaacgtg gctactcttt 600
caccaccaca gcagaaagag aaattgttag agatattaaa gaaaaactct gctatgtagc 660
tttggacttc gaacaagaaa tggcaacagc tgctagttcc agttcccttg aaaagagtta 720
tgaacttcct gatggacaag tcatcaccat tggtaatgaa agattccgtt gcccagaagc 780
tctcttccaa ccatccttct tgggtatgga agctgctggt attcatgaaa caacctacaa 840
ttccatcatg aagtgtgatg ttgatatccg taaggaccta tatgccaaca ctgtactctc 900
tggag 905
<210>790
<211>873
<212>DNA
<213>Diabrotica virgifera
<400>790
cacagacaca aggaaagatg aacaggaacg ttgtattacc atcaaatcaa ctgccatatc 60
tatgttcttc gagttagatg ataaagatct tgtgttcatc accaacgctg accaacgtga 120
gaaagatgtg aaaggtttct tgattaacct tattgactct cctggacacg ttgatttctc 180
atcagaagta acagctgccc ttcgtgtcac tgatggtgcc cttgtagtag tagattgtgt 240
atctggtgta tgtgtacaga ctgaaactgt actccgtcaa gctattgcag aacgtattaa 300
gccaatttta ttcatgaaca agatggaccg tgccctctta gaattacagt tggaatctga 360
agaactttac cagactttcc aacgtattgt tgaaaacgtc aacgtcatta ttgccaccta 420
caacgatgat tcaggtccaa tgggtgaagt cagagttgac cccagcaaag gttcagttgg 480
ttttggatca ggtctccacg gatgggcttt cactctcaaa caattctctg aaatgtatgc 540
cgagaaattc aagattgatg tagttaaact aatgaaccgt ttgtggggtg agaacttctt 600
caaccccaaa accaagaaat ggtccaaaca aaaggatgat gataacaaac gttcattctg 660
tatgtacatc ttagatccaa tctacaagat ttttgactcc atcatgaact acaagaaaga 720
agaatatgaa gcactccttc caaaattggg tattgcctta aaacatgaag ataaagacaa 780
agatggtaaa caattattga aagtagttat gcgtacctgg ttgccagctg gagaagcttt 840
acttcagatg atagccattc acttaccatc acc 873
<210>791
<211>877
<212>DNA
<213>Diabrotica virgifera
<400>791
caaatcaact gctggagaca ctcacttggg aggtgaagac ttcgacaaca gaatggtcaa 60
tcactttgtt ggagaattca agaggaaata caagaaggac cttaccacaa acaaacgtgc 120
cctccgtcgt ttgagaacaa gctgtgaaag agctaagcgt accctttcct catcaaccca 180
agccagcatt gaaatcgatt ctctatttga gggtattgac ttctacacct caatcaccag 240
ggctagattt gaagaactga acgctgattt gttcagatct accatggaac ctgtagaaaa 300
ggccatcagg gatgccaaga tggacaaatc tcaagttcac gatattgtgt tggttggtgg 360
atctacccgt attccaaagg tacaaaaact gttgcaagat ttcttcaatg gtaaagaatt 420
gaacaagtcg atcaaccccg atgaagctgt tgcttatggt gcagccgtcc aagccgccat 480
cttgcacgga gataagtctg aggaagtaca ggacttgctc ttgctcgatg tcactccact 540
ttcattgggt attgaaactg ccggaggtgt tatgactgcc ctcatcaaac gtaacactac 600
cattcccacc aagcaaaccc agaccttcac tacttactct gacaaccaac ccggagtact 660
tattcaggta tatgaaggtg aacgtgccat gaccaaggac aacaacctct tgggaaaatt 720
cgaacttacc ggcattcctc ctgcgccccg tgttgtccct cagattgaag taaccttcga 780
cattgatgcc aacggtatct tgaacgtcac agctattgaa aaatccacca acaaagaaaa 840
caagatcacc atcaccaatg ataaaggtcg tctcagc 877
<210>792
<211>375
<212>DNA
<213>Diabrotica virgifera
<400>792
cgtggattga gaaccgctag gaaacatgtg aatcaccgtc gtgaacaaag atgggctgat 60
aaagattaca aaaaggcaca tttaggaact agatggaagg ctaatccttt tggaggtgct 120
tctcatgcta aaggaattgt attggaaaaa gtgggagttg aagcaaaaca acctaactct 180
gctattcgca agtgcgttag ggtacagtta attaaaaatg gtaaaaaaat cacagccttc 240
gtacctagag atggttgctt aaaccatata gaagaaaacg atgaagttct agttgcaggt 300
tttggacgta aaggtcatgc tgtaggagat attcccggag ttagatttaa ggttgttaag 360
gtcgctaatg tgtcc 375
<210>793
<211>547
<212>DNA
<213>Diabrotica virgifera
<400>793
cgcaactggg tcaccagctt ggattctcat caacatattt tcctttaatt tatatcttgc 60
taacaattct tgtttttctt ctggtgtcat taccacatgt tctggtacca attcatgttc 120
agtaatattg atcaacaact cggattccaa aaattgttct aatatgtatt ttggagccat 180
atcaactagt gactgtttgg cagatggtgt catacctgct tgaacaacaa taatagctct 240
atgaatattt tcttcctgca tacgggaaca ataggtttta atggttttta ttccaatttt 300
tggttcgtct gggaaaaata caaacaactg gtctgtagga tcatcattgt gagctaccaa 360
cacgatcaaa tcacttcttg acggtctttt ctcgctaggt ttgtctccaa actgttcctt 420
aaattgttct aatgtttgat ccaattcatc ttgagttact aggtagcctc tatcgtgaca 480
taactgcatg acagtttttc tgattctcca tagtttgtac gtttcagctt cgtcatccat 540
tatttag 547
<210>794
<211>334
<212>DNA
<213>Diabrotica virgifera
<400>794
gtgtcagatt caccatgatt atcccagtaa ggtgttttac ctgtggaaag gttattggaa 60
acaaatggga ggcttatttg ggtcttctac aagctgaata tacggaaggt gacgctttag 120
atgcccttgg cttgaaacgt tactgctgca gaaggatgct tttgggacat gtggacctca 180
tcgaaaagtt gttgaattat gctcctttag aaaagtgaaa ctgtagcttt aaggtttatg 240
tatataattt aaaaataatg accttatcca tagttaattt gtatatttta gttctacaaa 300
ataatgcatt gactttcata ggcttataat ttgg 334
<210>795
<211>630
<212>DNA
<213>Diabrotica virgifera
<400>795
aagtggtgca ttttgtaacc atcgtttttg tgtattgttt aaagttttca gttgcaaagt 60
gtagatctca taaatataac actctatttt gaaaatggca aacacaaaca cagacttaac 120
ggaagaagac gcagcagacc tacagtttcc aaaagaattt gaaaatgcag aaactttatt 180
aatatcggag gttcacatgt tattagaaca tagaaaggat caaaatgaat ctgcgaagga 240
cgagcaagaa ttttcggatg tatttatgaa aacattaacg tatacagatc gatttaggaa 300
atttaaaaac aaagaaacca tatcagctgt aagaaattta ctaatgcaga ccaaaaagct 360
tcataaattt gagttggctg ctatcgcaaa cttgtgtcca gaaaccacag aggaggcgaa 420
atctctaatc ccttccctgg aagggcgatt tgaagacgag gaacttcagg caatcctgga 480
tgatattcaa actaaaagaa gtatccagta ctagagaaaa aagtcaatag tcatatttaa 540
tttcagattt tttcttttta tattttggaa caatttaatt atttatatta tttgaaaatg 600
caacaacttt ttcacgatgt aatgttagtg 630
<210>796
<211>1152
<212>DNA
<213>Diabrotica virgifera
<400>796
acgccaaacc tcctaagcct aataaaatct ttcctaagac aactacctac aatacgatca 60
tcattgatac ccaagttgac gagaacacaa caataaggcg tratatcaag gaatctcaag 120
catctctctc aaatgagcaa gcattttgat gattctccct ccaggcgtcc aatttaaatg 180
caacatataa aaacaattgt gccgtcaaaa acacgctata aattgccaaa actatataag 240
agaatcaaca aaatcctcga agttgtatgt ttatccctat ttactgtaaa aaagatataa 300
aaaatccaaa attaattatc ttctgtgttt gttagttgat gagacccttg gccttgaaga 360
gatcacgcat gagcccctta aggtacttaa tttcgcgatt tagatcagct atttgacttc 420
ccaaatcaac gttcttgtcc agaagaccct tttcttcact aagaattacc tcaatctcgg 480
ccttcttctt ttggcgatac ctggtagcag cgttcttgtt ttgctccttc ttgcgaacct 540
tcttgtcctc ggtaccgctt ttagagtaag gtctggtcct tttgcgggat gacttaacag 600
gaagttcgtc gttgtactgt tcaattggct ctggcatcca ttccggatca gaagagcagt 660
cgccaaagtt gctgctactg ctactactgc tcggggatcc aggactgctg cttccgctac 720
tgctccattg catgtcttcc acacgagttc tgactagctc gtccacgacg gccagctcca 780
tagcaatatc gggctgagga gtattaacgg gcaaggaata gttgatctcg tagttctctg 840
gcagaaattg cttctccggt tggacgtaaa cacgcttggt ttccactgga tactgtagaa 900
gtggctcgag attggtgagc attggttggc tcgggggaga ctgaggtgga gtgagcgtgc 960
catgggagaa ttccacgact tcgtacacgt tctggaattc cttgaggaaa tattgggtgt 1020
cattggagtt gacaaactca ttcttcaagt tttgaacagg tactggaatg gcacgcggag 1080
gttccacttc gtccaggatt ggtagtattt tttcatcgag aaggaagggt tcgtaacaga 1140
tagacatcat tc 1152
<210>797
<211>988
<212>DNA
<213>Diabrotica virgifera
<400>797
ctcttggatt gatgcgtgag tttagatctt cgattctaac atgtcgacgt tcagcttgta 60
gtaaacgtat gggtaatact ctgattggcc gaatccgagg cctggaatgt caacgctatc 120
aacgttaggt cctgaaaggg cagcactact atcgaggtgg ccgtaaagtt ggttcaagac 180
atctcttaaa cgttttaatt gtttcttatt ggggtggatt aaaatagctt ggaaattgac 240
ggggaggcca tatcttaaaa cagattcaac aaataccctc aacgctttaa cgtgaatcca 300
ggcgcagaaa cactcgctga agttgacttt aagccatcta actaatggac caaattgctt 360
ctttttatcg gtgacgagtt tggttatctc gttctttcca gctgccagtt cctcttcgtt 420
atatatgaaa tcacgaacga tgaacttctt ttctctagcg tgtaacttga attcttcgac 480
gacctttttg aatagggata cagtatatag accgtgttcg ttatcctgtt taatcagttg 540
tgaagaacga gggactatca tgtcggtaat cttttcgtat gtcgcattcc attcgttgaa 600
ttgggctttt ggaactataa ccaacaatgt ctgcaaatat tcagaatcca aaataaaatg 660
ttcctttttc accaaatctg ccaagtttct tgttagtaaa cttcctgtct gtttcttctc 720
caaattctga agacttcctt tcaagttatt gtacgcagac gatttggtct tcagatcagc 780
gtcaatttgg ccaacttgtt tgctgattat atcggcgatg ttacggagcg attgcttgat 840
gggatatttg gcgatgtccc aagtaaatcg ggttaaataa gtgggcaaat cgctgttatt 900
ggcctgcagg ttttctgacc acttgtctct ctgttcttca agtacttctc caaggtactg 960
agctaccttt ctggtgacct gctccacg 988
<210>798
<211>208
<212>DNA
<213>Diabrotica virgifera
<400>798
gagtgcctgg agagctgctg gattaaacta cattaactat tccaacattg ctgccaaact 60
tctgaggcag gcacttaaac ctgaacttag aacagaagca atgagaagaa atgaaaccca 120
tattaaagta accaaatggc aagatggaaa gccaataagg gagtccacat tttaaatcca 180
taatttaagt ccaagtctat gtagtgtt 208
<210>799
<211>1326
<212>DNA
<213>Diabrotica virgifera
<400>799
ctgtatctgg tgtcaacggt ccactagtaa tcctcgaaga tgtcaaattt cctaagttca 60
acgaaattgt ccaactcaga ttatctgacg gaagtttaag atcaggtcaa gtacttgaag 120
tcagcggttc caaggctgta gtacaagtat tcgaaggtac atcaggtatc gatgccaaac 180
acactgtctg tgagttcaca ggagatattc tcagaactcc agtctctgag gatatgttgg 240
gaagagtatt caacggctct ggaaaaccta ttgacaaagg tcccccaatt ctggctgaag 300
actacctaga tattcaagga caacccatca acccatggtc ccgtatctac ccagaggaaa 360
tgatccaaac tggtatcact gccatcgatg tgatgaactc gattgcccgt ggtcagaaga 420
ttcccatttt ctcagctgct ggtctgccac ataacgatat tgctgcccaa atttgtaggc 480
aagccggtct tgtcaaaatc ccaggcaaat cagttttgga tgaccacgaa gacaactttg 540
ccatcgtgtt cgctgctatg ggtgttaaca tggagactgc tagattcttc aaacaagatt 600
tcgaagaaaa tggttctatg gaaaacgtat gtttgttctt gaacttggct aacgatccaa 660
ccatcgaaag aatcatcacc ccacgtcttg ctctaacagc cgctgaattc ttggcttacc 720
agtgcgaaaa acacgtgtta gtcattttaa ctgacatgtc ttcatacgct gaagctttgc 780
gtgaggtatc tgccgccaga gaggaagtac ccggtcgtcg tggtttcccc ggttacatgt 840
acaccgattt ggccaccatc tacgaacgtg ccggtcgtgt cgaaggccgt aacggttcca 900
tcactcaaat ccccatcttg actatgccta acgacgatat tactcaccct attcccgatt 960
tgacaggtta tattaccgaa ggacagatct acgtcgaccg tcaattgcac aacaggcaga 1020
tctacccacc aattaacgta ctgccatctc tctcacgttt gatgaagtct gctatcggcg 1080
aaggtatgac caggaaggac cactctgacg tttctaacca attgtatgct tgttatgcta 1140
tcggtaagga cgtccaggcc atgaaagccg tagtaggtga agaagctcta acacccgacg 1200
atcttctcta cctcgagttc ctaacgaaat tcgaaaagaa cttcatcacc caaggaaact 1260
acgaaaaccg caccgtcttc gagtctttgg acatcggctg gcaactactc cgtatcttcc 1320
ctaagg 1326
<210>800
<211>1034
<212>DNA
<213>Diabrotica virgifera
<400>800
ccgggattta gtaggggcgg tccttccgga aagcgtttct tcacttcctt aatagctttg 60
tgcattcctt ttcgactatc tttcgacctt agatcgttgg gacagaacag ccgcacggac 120
gataaatgag ttatcagcgt cgaatctaca gtcactacct cgatttcgcc tttctggtct 180
tccaaacacg gtttcggtat catcgtttca tcgctatttt ctggtaatac gtgtaacaaa 240
atatccactt tgactttagt ttgggttttg ctttgtcctt gtttattttt gcgccccgga 300
ataatctctt ggaccttttt gaagttaacc acagcgcccc aatcgtattc atcttcagtc 360
gattttatct ttaaaagtct accaggttga agaaacggca acaaatattg cgagcttgtg 420
agatatgtcc taaacttgac acccaacagg tctaactctg ttctaattac gtgataagac 480
tgtattcgct cttcatcttt gatttcaagc gaattgaaaa gttctaattt ttcgttataa 540
tcatcataat atccgggtat tgcagcttga ttctgaaact ggaagaacga tcgctccaac 600
atatactcag gattgatttc ttcgaccctt agcaagttca gtaccatatt gtaagtcaaa 660
tggaaggcgg agttgatggg gtccggcaaa cctttaacta tgttcctacc ggctgccgga 720
ggcactttct cgtccaccat caatattacg atacctttat cgtccaggcc tcttcttcct 780
gcccttccag acatttggat gtattctcca gaagtaatcc atctgtactc actgccatca 840
aatttcctca ttccagtaaa caacacagtt cttgcaggca tatttaaacc catagcgaac 900
gtttctgtgg caaatagcgc ttttatgagc ccctcgccga ataaaatctc gatggtttcc 960
ttcaaaatcg gcaacaaacc accgtgatgg atgcctattc ctcttcttaa caacggcaga 1020
aggttctcga cttg 1034
<210>801
<211>721
<212>DNA
<213>Diabrotica virgifera
<400>801
ggagaaacca tcccctatac aggaagcctc tatccctata gcactgtctg gaaaagatgt 60
acttgctaga gcaaaaaatg gaacaggtaa gactggtgct tacagtattc ctgtgttaga 120
gcaaatcgac cctaaaaaag actgtattca agcactaatt atagtaccaa cgagagaatt 180
agcattacaa acttcacaaa tatgcataga actagccaaa tacctagagg tacgtgttat 240
ggtgacaaca ggtggaacaa acttacgaga tgacattatg cgtatatacc aaaaagtgca 300
agttatcata gcaactccag ggcgtatact tgacttaatg gaaaaaggag tagcagttat 360
ggaccaatgt aaaattcttg tattagatga agctgacaaa ttactgtctc aagattttaa 420
gggaatgctt gacactgtga ttaaaaattt accacaagag aggcaaattt tactattttc 480
tgcaactttc cctttgacag ttgaacaatt tatgagaaag catttacgag atccgtacga 540
gataaatctc atggaagaac ttacattaaa aggtgttaca cagtattatg catttgtcca 600
ggaaagacag aaagtgcact gtttaaatac tctattttcc aagttacaaa ttaatcaaag 660
tattattttt tgcaattcta cacaacgagt agaattgctg gcgaagaaat aacagaactg 720
g 721
<210>802
<211>361
<212>DNA
<213>Diabrotica virgifera
<400>802
gctttagggc agtgtgtaga aactcctcgt ctttacgatc tttcagtaca aggcctttgg 60
cagtcacatt agtaaataga tgcagtgata ttttacaaaa tagctcacaa agtaaacctg 120
gttctttgat cgatatacag acaagattct attcaccaga ggtaataaaa cctaaacctt 180
ctgaagaaga aatcaaacaa agggtgctga aagtgtgttc ttcatatgat aaagtaactg 240
cagaaaagct gactttgaac tcccacttca tcaatgatct tggattagat tccctagacc 300
atgtcgaagt catcatggcg atggaagatg aattcggctt tgaaatccca gatgctgatg 360
c 361
<210>803
<211>183
<212>DNA
<213>Diabrotica virgifera
<400>803
ggtctttcta gcacaattta caattccatt tttaaaagaa cctcaacaat ggctttagct 60
gttgttgttt ctgcattttt cttcgagaga actttcgatt tagcaacaga cacctttttt 120
gaaagatata atgaagggaa attatggaaa cacatcaagg acaaatatga gcaggaataa 180
gtg 183
<210>804
<211>372
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note:
The C4_Dv49_CG8055 concatermer; The combination of inferring,
Carrier activity: CG8055 is directly to homologue
<400>804
cccgggttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 60
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 120
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 180
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 240
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 300
gccctcttta ccatggtagc aaagaaaaat gcgtcgaaaa ataaaagagt tgcactccaa 360
gccctctcta ga 372
<210>805
<211>372
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>805
cccgggcaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 60
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 120
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 180
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 240
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 300
gctagccaaa tagatggaac ccttacaact attgaaatgc agagggaagc cctcgaagga 360
gctagctcta ga 372
<210>806
<211>490
<212>DNA
<213〉artificial
<220>
<223〉artificial sequence note: the C6 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
Be Dv26, Dv49, Dv23, Dv20, Dv13, Dv22, the fragment of Dv18 order is formed
<220>
<221〉comprehensive characteristics
<222>(1)..(70)
<223〉concatermer C6 Dv26 fragment
<220>
<221〉comprehensive characteristics
<222> (71)..(140)
<223〉concatermer C6 Dv49 fragment
<220>
<221〉comprehensive characteristics
<222> (141)..(210)
<223〉concatermer C6 Dv423 fragment
<220>
<221〉comprehensive characteristics
<222>(211)..(280)
<223〉concatermer C6 Dv20 fragment
<220>
<221〉comprehensive characteristics
<222>(281)..(350)
<223〉concatermer C6 Dv13 fragment
<220>
<221〉comprehensive characteristics
<222>(351)..(420)
<223〉concatermer C6 Dv22 fragment
<220>
<221〉comprehensive characteristics
<222>(421)..(490)
<223〉concatermer C6 Dv18 fragment
<400>806
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa 180
ctacagaggt acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca 240
cacggtgctg cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat 300
ttgactccct ttcctcttgg gagggaaacg aaggccttag ctcccttacc tcatcgtccg 360
tttggattca caaaaacaca tcgacttctc tctgaaatca cctttgggag gcggtcgtcc 420
gatccttttc gatttgttgc tgccattggg gatccatctg gacttctgga ggaagcaagg 480
caggtgcagc 490
<210>807
<211>560
<212>DNA
<213〉artificial
<220>
<223〉be Dv6 by 5 '-3 ', Dv1,
Dv88, Dv93, Dv4, Dv113, the concatermer that the fragment of Dv127 and Dv99 order is formed
<220>
<221〉comprehensive characteristics
<222>(1)..(70)
<223〉concatermer C7 Dv6 fragment
<220>
<221〉comprehensive characteristics
<222>(71)..(140)
<223〉concatermer C7 Dv1 fragment
<220>
<221〉comprehensive characteristics
<222>(141)..(210)
<223〉concatermer C7 Dv88 fragment
<220>
<221〉comprehensive characteristics
<222>(211)..(280)
<223〉concatermer C7 Dv93 fragment
<220>
<221〉comprehensive characteristics
<222>(281)..(350)
<223〉concatermer C7 Dv4 fragment
<220>
<221〉comprehensive characteristics
<222>(351)..(420)
<223〉concatermer C7 Dv113 fragment
<220>
<221〉comprehensive characteristics
<222>(421)..(490)
<223〉concatermer C7 Dv127 fragment
<220>
<221〉comprehensive characteristics
<222>(491)..(550)
<223〉concatermer C7 Dv99 fragment
<400>807
ggcgcaagcg cttcagtgtt atcatatgcc cacttccagg catttaaatt ccctgactcc 60
atggaagttc tccatcaggg gccaaaaggg gataccaagc cattaccggc cactcatcca 120
cagctttagc atggtacata tagtgatccc aaccgtgcac ctgactgtga cccaactcaa 180
tgtgtaattc cggactgttt ctgctcagcg cccgccacca gttagcgccg aagtacaaaa 240
gggattggac cttatttttg ctggtatcag agctcaacag gcaccacgtg ctcaacgata 300
aaagactggt caggaaggca cattcctttt tgccttactt attcaaggca gggtgcatac 360
agagtagcca cgtaacaaat agcacatagc gaagtgttgt accagcataa tgtataagct 420
cctgtactta ccaaaggctc gttggcagat ctagaccagt tggacgaatt ggttattgag 480
tactgtggtg cagcgccccc tttatggcag atgaatgtct gatggccata ccagacatcg 540
aaggtattga ttacaccacc 560
<210>808
<211>372
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: C8 concatermer; The sodium of inferring/potassium exchange
ATP enzyme: CG9261 is directly to homologue
<400>808
cccggggcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 60
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 120
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 180
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 240
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 300
ggagaagcta aaggaaatgg ccaaattaaa acatgctctc atcacgacta tcctactagt 360
ggagaatcta ga 372
<210>809
<211>372
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: C9 concatermer; The sodium of inferring/potassium exchange
ATP enzyme: CG9261 is directly to homologue
<400>809
cccgggctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 60
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 120
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 180
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 240
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 300
acgatgctcc atgtattttt attaaattga acaaaatata taactgggag ccaatgtatt 360
acgatgtcta ga 372
<210>810
<211>1000
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: C10 concatermer with gene of the identical/different binding modes of inferring
About 50%GC standard
<400>810
caagcccgcc aaaatgcgcg aacatctgga actcttctgg tctcgagtga atatccccaa 60
agttcttagg aatgcaatgc ttcctagacg tcgtcgagct ggctctgaaa ctgagcccca 120
agttatagta ggtaacgata attattggac gtggcattag gttataggga aagtgtcaat 180
ctgtctcaaa ttcgcacatt tgtggaaatg gactcgcacg cgcggcccaa cgacggcttc 240
aacaaacaca ggcgcaagtc gacgaagtcg tggatatcat gaaaacgaat gtagaaaaag 300
gtatggcagg aaagaaatgc tgaatccgcc attgaagctc ttaaagaata tgaaccagaa 360
atgggcaaag ttgtccgaca agacaaatcc ggtattcaga aaatccgggc atagcaaaca 420
tgccaaacac acacacgcag aaaggaaata tcagtcagac tcagaatcag atagtgatct 480
ggaatggatt ggacacagag gtgaatcaga ccagaggacg ttcgggggta tattaaaaat 540
aacgttgtgt gcgcacttgg aaccgaaaca agcagaccat catccgcagc tcagtgcgta 600
gccgaatgtg gccgtgcaca ctgtgcattt gtaggacagg tgtgcgggtt tcaacgtcat 660
gttatgatcc cttgcatata ttgatggaaa aacacgccaa agaagagagc agagtattaa 720
aaggagtatt gccaggtaca tagaccagca aggaactgta atcaaaatgg gcgatgaaaa 780
gaaggccagc gatagcgaac acattaatct caaagtactt ggtcaggata atgcagtggt 840
gcagaaggtc agacctctcc tcaacgtcac ccgtatcgag gatgagattg ccaaacttga 900
agagaaagcc caaaaagccc aacgaacacg gcgtagacga aacatcttgt gtagttattg 960
tagaaggaca aaccagcaca ccagaacaac aagaactagc 1000
<210>811
<211>478
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note:
The C12 concatermer of highly effective WCR target, about 50%GC standard,
Form for the fragment of Dv23-Dv13-Dv26-Dv18-Dv49-Dv22-Dv20 order by 5 '-3 '
<220>
<221〉comprehensive characteristics
<222>(1)..(70)
<223〉concatermer C12 Dv24 fragment
<220>
<221〉comprehensive characteristics
<222>(71)..(145)
<223〉concatermer C12 Dv13 fragment
<220>
<221〉comprehensive characteristics
<222>(146)..(222)
<223〉concatermer C12 Dv26 fragment
<220>
<221〉comprehensive characteristics
<222>(223)..(275)
<223〉concatermer C12 Dv18 fragment
<220>
<221〉comprehensive characteristics
<222>(276)..(338)
<223〉concatermer C12 Dv49 fragment
<220>
<221〉comprehensive characteristics
<222>(339)..(418)
<223〉concatermer C12 Dv22 fragment
<220>
<221〉comprehensive characteristics
<222>(419)..(478)
<223〉concatermer C12 Dv20 fragment
<400>811
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct 180
gaagcaacat ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca 240
cattgtcctt ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg 300
aaatcacaaa cgctattagc aatcctgtcg gattcaccgt aatgcactcc tacgtcgttt 360
ggttcgtatt ggagtactag acgagaacag aatgaagctc gattacgtat tgggtctccg 420
aagtaatgta caacggccac actggacgta agataaatgc tcagattttc ttaggacc 478
<210>812
<211>869
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: artificial sequence note:
The C14 concatermer of activated gene target in some different biologies, about 50%GC standard
<400>812
ccgaagtgag atcggagcca aaaagcattg gttgcttgac ggtccaatgg aaaacgaacg 60
agaagtggat ggcttcagca atgctcggcc aggctgattg ctctttattt tgacactgga 120
atgtacagcg aagcgctaca actggaatcg accttactga ctactcgtct acgatatcgc 180
caaacatctg acatacgaaa acgttgaacg ttggttgcgc gaattgcgcc attcttttct 240
caggtaccaa tgttgctgct ggtaaagcac gtggtattgt tattggaact ggtcttaaca 300
ccgccattgg taaaatcaga actgaaatgt ccaacgaaat tgccaacact aactcaagac 360
agaacatccg taagttgata aaggatggtc ttattattaa gaagcccgta gctgtacatt 420
cccgtgccga tacctacaca gaaagctata ttagtaccat tggcgtagat tttaaaatca 480
ggacaatcga tttagatggg ttacaaaagg ataccaatac aagatgagag cagcatatgc 540
tcactttccc attaactgtg tcaccactga aggaaacaca gttatccagt ttgcaagctc 600
tctggcagat ttcagtcaaa tcggcaccag aaaatccatg agttacttta gcaatgtata 660
caagatctac gtctttagct acaggcgatt tccgatgaaa tagtggcatt aggttatagg 720
gaaagtgtca atctgtctca aattcgcaca tttgtggaaa tggactcgca cgaagaaaaa 780
gtttatcagg ccgtgagaga attaaaagtt caaggaggta tcggttcgtg tgtatcactt 840
aacgtgaaga gccccttggt ttccgacac 869
<210>813
<211>2694
<212>DNA
<213>Diabrotica virgifera
<400>813
ggtcgaccca cgcgtccggc ttgagtaaaa actgaaatca tataaaagag ataatttcta 60
ttgtgaacta atttttcaaa agtttctaca ttaagtacat attcattact aaataatggc 120
cgaaaacaaa aatccagagg atttggccac cgcaattctc cgtaagaaag atcgtccaaa 180
tagacttttg gtagaagaag cagttaacga tgataactcc gtggttgctt tgtcacaagc 240
aaaaatggat gaactacaac ttttcagagg agacacagtc ctactgaagg gcaagcgaag 300
gaaagaaact gtttgtatag tattatctga tgatacatgt agcgatgaaa aaattcgtat 360
gaatagaaat aatttaagag ttaggctttc agatgtagtt tctatccaag cttgccctga 420
tgtaaagtat ggcaagagaa tacatgtact tcccatagat gatacagtgg aaggactcac 480
aggaaatctc ttcgaagtat acctgaaacc ctacttcctg gaggcctatc gaccaataca 540
caaagatgac gtattcgttg tacgtggagg aatgagagct gttgaattca aagtcgtcga 600
gaccgatccc gctccgtact gtatcgtggc tccagacacc gtcattcatt gtgatggaga 660
tccaatcaag cgcgaagagg aagaggaagc tcttaacgca gttggatacg acgacatcgg 720
aggttgtaga aaacagcttg ctcaaatcaa agaaatggta gagttaccac tgagacatcc 780
tagtcttttc aaggctattg gagttaaacc accaagaggt attttacttt acggtccacc 840
gggtactggt aaaacactca ttgcacgtgc agtagctaac gaaactggag cgttcttctt 900
cttgattaac ggtcctgaga ttatgagcaa attggccggt gaatccgaaa gcaatcttcg 960
taaagctttc gaggaagccg acaagaattc cccagctatt attttcattg atgaattgga 1020
tgccatcgct cccaagagag agaaaacaca cggagaggtg gaacgccgta tagtatccca 1080
acttctaact ttgatggacg gtatgaagaa gagttcccac gttatcgtta tggccgctac 1140
taacagacca aactcaatcg atccagcttt acgtagattc ggaagattcg acagggaaat 1200
cgatatcgga atacctgatg caactggcag acttgaagtt ttacgtattc acaccaagaa 1260
catgaaattg gccgatgatg tcgacttgga acagatcgct gcggaaactc atggtcacgt 1320
aggtgccgat ttagcttcac tatgttcgga agcagccctt caacaaatca gagaaaaaat 1380
ggacctcatc gacctcgaag acgaccaaat tgacgcagaa gtcctaaact cactggcagt 1440
taccatggag aacttccgtt acgccatgac gaagagcagc ccaagtgctt tacgtgagac 1500
catagtagaa gtaccaaacg tcacttggga cgatatcggt ggcttggcta atgtcaagaa 1560
agagttgcaa gaattggtgc aatatccagt cgaacatcca gataagttcc ttaagttcgg 1620
tatgcaaccg tccagaggag tgttgttcta tgggccgcct ggttgcggta aaacgttatt 1680
agctaaggct attgcgaatg aatgccaagc caactttatc tcagttaaag gaccagagtt 1740
gcttactatg tggtttggtg aatcagaagc aaatgtccga gatatcttcg acaaggctcg 1800
atctgcggca ccttgtgttc tattctttga cgaattagat tcaattgcca aatcgcgtgg 1860
tggaaatgta ggtgatgccg gtggtgcagc cgacagagtt attaatcaaa ttctaacaga 1920
aatggacggt atgggagcca aaaagaacgt gtttattatc ggtgctacaa acagaccaga 1980
tatcatcgat cctgcaatat tgcgtccagg tcgtctcgat cagttgatct acatccctct 2040
gcccgacgag aaatctaggg aagccatctt caaagccaac ttgaggaaat cgcctgtagc 2100
taaagacgta gatcttgtat acatcgctaa agtaacccat ggattttctg gtgccgattt 2160
gactgaaatc tgccagagag cttgcaaact tgccatcagg caaagcatcg aaacagaaat 2220
taggagagaa agagaaaggg ctttgaaccc caatgttgct atggatttgg acgatgacga 2280
tccagtccca gaaatcacca gggcccmctt cgaagaggcc atgcgtttcg ccagacgttc 2340
cgtttcagac aacgacatca gaaaatacga gatgttcgcc cagaccttac agcaatctcg 2400
cggattcggt accaacttcc gtttcccgac agcagctggt ggacctgctg ctccaggagg 2460
taccggagga gaccaggcca acttccagga cgatcctgaa gacgatctgt atagttaaat 2520
gtttcaggtg ggctcaataa gcaccaactt tcaattttat ttttcatttt tgtatttatt 2580
tacagtaact cctcagtttg ctaacaatat tacattgtta acgcattcat atgttgttta 2640
atataatagt tttggaatat aattacaagt ttgtctaaaa aaaaaaaaaa aggg 2694
<210>814
<211>622
<212>DNA
<213>Diabrotica virgifera
<400>814
gtcacaagta gggctaaaat gaagcaaatt gtaacaaacc aaacggtaaa aattcctgag 60
ggaattacag taaccactaa gtcaagggta gtaactgtaa aaggaccccg aggtaatctg 120
aagagatcct tcaaacatct taccctggac attcgaatga tcaaccccag gttactgaaa 180
gtagagaaat ggttcggtac caagaaggaa ttagctgctg tcagaacagt atgctctcat 240
gttgaaaaca tgttaaaggg tgttacaaaa ggataccaat acaagatgag agcagcatat 300
gctcactttc ccattaactg tgtcaccact gaaggaaaca cagttatcga aattagaaat 360
ttcttgggag aaaaatacat cagaagagta aagatggccc caggtgttac agtagtaaac 420
tccaccaaac aaaaggatga acttatcatt gaaggaaact cattggagga tgtttcaaag 480
tcagctgccc ttattcaaca atctacaaca gttaaaaata aggatatccg taaattctta 540
gatgggcttt atgtatctga aaaaacaact gttgtacaag aagaataact tgtatttttg 600
aaataaattt aagtttatat tt 622
<210>815
<211>670
<212>DNA
<213>Diabrotica virgifera
<400>815
aaattctttt acggaagaca cgttgagagg tgcatttgca cgatgagttc cttaaaactt 60
cagaagaggc tagcagcctc tgttatgcga tgtggtaaaa agaaagtatg gttggaccct 120
aatgaaatca acgaaattgc caacactaac tcaagacaga acatccgtaa gttgataaag 180
gatggtctta ttattaagaa gcccgtagct gtacattccc gtgcccgtgt tcgcaaaaac 240
actgaagccc gcaggaaagg aaggcactgc ggttttggta aaaggaaggg tactgctaat 300
gcccgtaccc crcaaaagga attatggatt caacgcatga gagttttgcg tcgtctcctt 360
aaaaaataca gggaagctaa aaaaattgac agacatctat accactcact ctacatgaag 420
gccaagggta acgtattcaa gaacaagcgt gtccttatgg aatacatcca caagaagaag 480
gcagagaaag cccgtgccaa gatgttggca gaccaggcca atgccagaag gatgaaggta 540
aaacaggcta gagaaagacg tgaggaacgt atcgccacaa agaaacaaga agttttgcag 600
aactacatga gggaggatga agctgcggcc actaagaaat aagttaattg ttttataaga 660
tgactatatt 670
<210>816
<211>871
<212>DNA
<213>Diabrotica virgifera
<400>816
gttcgcctga tctgtctttc atatttttaa agtcaagatg gctcgaggac ctaaaaagca 60
tttgaagcgt ttaaacgcac ccaaagcatg gatgttggac aaattgggag gtgtatttgc 120
cccccgtcca tccaccggtc ctcacaagtt gagagaatct ttaccattag taattttctt 180
aagaaacaga ctaaagtatg ccctcaccaa cagtgaagtc acaaaaattg ttatgcaaag 240
attaattaaa gtcgatggaa aagtcagaac agacagtaac tatcctgcag gatttatgga 300
tgttattact attgagaaga ctggtgaatt cttccgtctt atctatgatg ttaaaggtag 360
atttgccatt caccgtatta cagctgaaga agcaaaatac aaactctgca aagtacgaag 420
agtccaaact ggaccaaaag gaattccatt cttggtgaca catgatggcc gtaccatcag 480
ataccctgac ccaaacatca aagtcaatga caccatccaa ttggaaattg ccacatctaa 540
aattttagac tacattaagt tcgaatctgg aaacttatgt atgatcactg gaggaagaaa 600
tttgggtcgt gtaggtacag ttatcaatag ggaacgtcat cctggatcct ttgatattgt 660
gcatgttaaa gatgctaatg gtcatgtatt tgctactagg ttaaataacg ttttcattat 720
tggtaaggga gctaaggcct tcgtttccct cccaagagga aagggagtca aattgtctat 780
tgctgaagag agagacaaga ggttagcagc caaaacacat taaatgtaat ggttgattac 840
attattttca ataaaactta aaaaatctga a 871
<210>817
<211>2410
<212>DNA
<213>Diabrot ica virgifera
<400>817
cggacgcgtg ggggagaaac ataacatcca tccacaaata tgtcgaaagt aaggatcgga 60
gatgaagaga aggaagggca gtatggttat gtccatgctg tctcaggtcc agtcgttact 120
gctgagaaaa tgtctggttc tgctatgtac gaactggtac gtgtcggata ctatgagctg 180
gtaggagaaa tcattagatt ggaaggtgac atggctacta ttcaggtata cgaagaaaca 240
tcaggtgtaa ctgttggtga tccagtatta agaactggta aaccactttc agtagaactt 300
ggacctggta ttatgggttc catttttgat ggtatccaac gtccattgaa agacatttgt 360
gacgctactg atagtattta catccccaag ggtattaacg taccttcttt atcgagaaca 420
gcaaaatggg acttcaaccc aatcaacatc aagttgggat ctcacttaac tggaggtgat 480
atatatggtc tagttcatga aaacaccctt gtcaaacaca aaatgattct gcctcctaga 540
gctaagggta ctgtaaccta cattgcagaa ccaggaaact acactgttga tgaagtagta 600
ttggaaactg aatttgatgg tgatcgtacc aaatatacta tgttgcaagt atggcctgta 660
cgtcaagcaa ggccagtcag tgaaaaatta cctgccaacc atcctctgct tacaggacag 720
cgtgtacttg atgctctttt cccatgtgta cagggtggta ctactgccat tcccggagct 780
ttcggttgtg gaaaaactgt aatttcacaa tctctttcca aatattccaa ctctgatgtc 840
attatctacg tcggttgcgg agaaagaggt aacgaaatgt ctgaagtatt gagagatttc 900
cctgaattga ctgttgaaat tgacgggcac actgaatcta ttatgaaacg taccgcattg 960
gtcgccaaca catctaacat gcctgtagct gctcgtgaag cttctatcta tactggtatt 1020
actctttctg aatacttccg tgatatgggt tacaacgtat ctatgatggc tgactcgaca 1080
tcacgttggg ccgaagcttt gagagaaatt tcaggtcgtt tggctgaaat gcctgccgat 1140
tccggttatc cggcttactt aggtgcccgt ttggcttcct tctacgaacg tgctggtcgc 1200
gttaaatgtt taggtaatcc agacagagaa ggatccgttt caattgtagg agccgtatca 1260
cctcctggtg gtgatttctc agatcctgtt accactgcta ctcttggtat tgtacaggtg 1320
ttctggggtt tggacaagaa acttgcccaa cgtaagcact tcccttcagt agactggctt 1380
ggatcatatt ccaaatattt aagagcattg gacgactttt atgacaaaaa cttccaagag 1440
tttattcctc ttagaaccaa agttaaggaa attcttcagg aagaagatga tctagccgaa 1500
attgtgcagc tggtaggtaa agcatctctg gcagaaacgg acaaaatcac cttggaaatt 1560
gccaggcttc ttaaagaaga tttcttgcaa caaaactcat actcttctta tgacagattc 1620
tgtccattct ataaaactgt cggtatgttg agaaacatga tcggtttgta cgacatggcg 1680
agacacgctg tagaatcaac cgcacaatca gaaaataaga tcacttggaa cgtaataaga 1740
gattcaatga gtggaatttt atatcaactt agcagtatga aatttaagga tcccgtaaaa 1800
gatggtgaag ctaaaatcaa ggcagatttt gatcaattat atgaagatat tcagcaggcc 1860
ttcagaaact tagaagatta aatcttttta aggaaatttt cctattttgt tcatcagtgt 1920
aagtttaaaa atatagcgat atttatcaaa aagaataata aggcctctat ccctcacttc 1980
tgtgaatatt aatatggccg tactaaagat agtaactaaa gataggtttt ctcttttttg 2040
atattatcct gtacaaaata aattatgtaa attgttgaat atgtgtatag tttttttggg 2100
tgagggtaca gtgcttatta aatacttttt aaacattttt cccgccattc caattactat 2160
taagtttttt cgttttaata cttttttaaa tatacaggtg cttaatatcg tttatatttt 2220
cagtattact tggttttctt catgtaaatt gttttaaatt tttcttttac ccttttaatc 2280
ttgtatatta cattacccaa ttaaagttaa ttgtacagat taagataaac gagtatctta 2340
taacatctat tagattgtta gaatcaataa atgtagtgta attgttctgt tttgaacaaa 2400
taaatgcatc 2410
<210>818
<211>988
<212>DNA
<213>Diabrotica virgifera
<220>
<221〉base of Xiu Shiing
<222>(884)..(965)
<223〉n=a, c, g or t/u
<400>818
aggacgcgtg ggttcgtatt tttttcttaa caaaagggca aaatgagctt ttttggaaaa 60
ttgttcgggg ggaaaaagga agagatagcc cctagtcctg gggaggctat tcaaaaactc 120
agagagactg aagaaatgtt aataaaaaaa caggattttt tagaaaagaa gatagaagaa 180
tttaccatgg tagcaaagaa aaatgcgtcg aaaaataaaa gagttgcact ccaagccctc 240
aaaaagaaga aacgattgga aaagacccaa ctacaaatag atggaaccct tacaactatt 300
gaaatgcaga gggaagccct cgaaggagct agcacaaata ctgctgtatt agattctatg 360
aaaaatgctg cagatgccct taagaaagct cataagaatt tgaatgtaga tgatgttcac 420
gatatcatgg atgacatagc cgaacaacac gacatagcca acgaaatcac aaacgctatt 480
agcaatcctg tcggattcac cgacgatctg gatgacgatg aattagaaaa agaattagaa 540
gagctcgaac aagaaggatt ggaagaagac ctgctccaag tgccaggtcc aactcaactg 600
ccggctgtgc ctgctgatgc agttgctact aaaccaatca aaccagcagc taaaaaagtt 660
gaagatgatg acgatatgaa agaattggaa gcctgggcct cgtaaaattc ctgaaatctg 720
gatatttgta aacgaaatca cccatctaag atgaaaacat tataaatata taggtaataa 780
cagctaaaaa cgtttcaatg tagaacaagc ttttgctgaa aaggcgtctt gcaaaaaatg 840
ttgataattt agaattctct atatattata tatttgccct ttangaaaga tttcttttat 900
agtcatagtt caaccanacg tttcataaat agaattacag gggtgtcaga attctacngt 960
gattnattga aaaaaaaaga cttttcct 988
<210>819
<211>3001
<212>DNA
<213>Diabrotica virgifera
<400>819
aagcagtggt aacaacgcag agtacttttt tttttttttt ttttttttga cagttcgaaa 60
atggtgatgt gtttataatt cgtgtcaatt tagtgaaata gcattcaatt ttttgtataa 120
gatctcttca aaatgccact tcgattagat ataaaaagaa agctaacagc tcgctcagac 180
cgggtaaaat gtgtggatct tcaccctaca gaaccttgga tgctgtgttc tctttacagc 240
ggaaatataa acgtttggaa caccgaaaat cagcaactgg ttaagacttt tgaagtatgt 300
gatgtacctg ttcggacagc taagtttttg cccaggaaga actggatagt cagtgggtct 360
gatgatatgc agattcgagt tttcaattac aataccttag atcgggtaca ttcttttgag 420
gctcattcgg attatgtgag atgtattgtc gtacacccta cacaacctta tatattaaca 480
agtagtgatg atatgcttat caagctttgg aattgggaaa aagcatgggc ttgtcagcaa 540
gttttcgaag gacacactca ttatattatg caaatcgcca taaatccaaa agacaacaac 600
acatttgcca gtgcatccct agatagaaca ttgaaagtat ggcaattggg agcgtccaca 660
gcgaatttca cactagaagg tcatgagaaa ggcgttaact gtgtggacta ttatcacggt 720
ggagataaac cttatttaat ctcaggcgct gatgatagat tagtaaaaat ctgggattat 780
caaaacaaaa cttgtgttca aactttggaa ggacatgctc aaaatgtaac cgctgcatgt 840
ttccatccag aacttcctgt agctcttact ggaagtgaag atggtactgt cagagtgtgg 900
catgccaaca cccataggtt agaaagtagc ttaaattatg gctttgaaag agtatggact 960
attttctgcc taaagggatc caataacgtg gcattgggtt atgatgaagg tagcattttg 1020
gttaaagttg gtagagaaga accagctgtt agtatggatg ccagtggagg caaaattatt 1080
tgggccagac actctgaact tcaacaggca aatctcaagg cgttagctga aggtgcggaa 1140
ataagagatg gagaacgcct tccagtttct gtaaaagata tgggtgcttg cgagatatac 1200
cctcagacaa ttcaacacaa tcccaatggc cgttttgttg ttgtctgtgg ggatggagaa 1260
tacataatct acacagcaat ggctttaaga aacaaagcgt ttggtagcgc acaagaattt 1320
gtgtgggctc aagattccag cgaatatgcc atcagagaat ccggatctac tatcagaatt 1380
tttaagaatt tcaaagagaa gaagaatttt aagtccgatt ttggagctga aggtatatac 1440
ggtggatacc ttttgggagt caaatcggtt tctggtttga ctttctatga ttgggaaact 1500
ctcgatttag tcagaagaat cgagatacaa ccaaaagcag tttactggtc agatagtggt 1560
aaattagtat gtttggccac agaagatagc tactttattc tttcttatga ttctgatgaa 1620
gttcaaaaag ccagagataa caatcaggtt gcggatgatg gagtagaatc ggctttcaat 1680
cttctaggtg aaataaacga atcagtgcga actggtctct gggtaggcga ctgttttatc 1740
tacacgaatt ctgttaatcg tatcaactac ttcgttggag gtgaactggt tacaattgct 1800
catttggacc ggcctttgta tgtcttggga tatgtgccta aagacgatag attatacctc 1860
gtagataaag agttgcgcgt agtaagctac caattacttc tttctgttct tgaatatcaa 1920
actgccgtca tgagaagaga ctttccaaca gcagacagag tacttccgtc cattcctaag 1980
gagcacagaa cgagagtggc acatttctta gaaaagcaag gcttcaaaca gcaagctttg 2040
gccgtaagta cagatccaga gcacagattc gagctggcag tagcattaga ggatcttaat 2100
atagccaaaa ctctagctca agaagcgaac agtccgcaaa agtggaatca actagcagaa 2160
ttggcagctg ctactaataa tgtaagcgta gccaaggaat gtatgcaaaa agcgcaagat 2220
tatggaggct tgttgcttct tgctacgagc tccggtgatg aaaatttagt ccgtactcta 2280
ggagaaacga cacaagctga aagcaaacat aacttagcat ttttgtcaca cttgttagta 2340
ggtgatttaa acaaatgtct agacattctt attaataccg gtagattgcc agaagctgca 2400
tttttcgcca gatcttacct tcctgataag attacagaag tcgtggaact gtggaagact 2460
cagttatctt cagtcaatca aaaagctgga cagagccttg ccgatcctaa aaactacgaa 2520
aatctgttcc ctggtttaca agaggcggtg gtagctcaga aatttttgga acagcagaat 2580
aaaggtttag cgcccgcaag agttgccacc accattcctc ctaatcacga caggaatgtt 2640
gtagccgaag ttcaagcaca atcgaaaccc gatgtaccat catttagttc ttcgtttatt 2700
tcatcagaaa tagaagcaca aacaaggagt tttgctaaac ctgaagaatt ttcaaacatt 2760
atacagctgg accaagatga cgacgatatc gatttagatt tggacggtgt aaatatcgat 2820
gagaacattg acccgacgga tatcaacatc gatgatgatt tgctgagtga ttgaaaataa 2880
cttttttact ttagtattaa atctgtatat tcattcctat tcttaagaaa atctatatga 2940
attttaatgt tttaatagtt aagaaatcca aaatttaaaa aaaaaaaaaa aaaaaaaaaa 3000
a 3001
<210>820
<211>2719
<212>DNA
<213>Diabrotica virgifera
<400>820
ggtccgattg agacttttca acaaagggta atatccggaa acctcctcgg attccattgc 60
ccagctatct gtcactttat tgtgaagata gtggaaaagg aaggtggctc ctacaaatgc 120
catcattgcg ataaaggaaa ggccatcgtt gaagatgcct ctgccgacag tggtcccaaa 180
gatggacccc cacccacgag gagcatcgtg gaaaaagaag acgttccaac cacgtcttca 240
aagcaagtgg attgatgtga tggtccgatt gagacttttc aacaaagggt aatatccgga 300
aacctcctcg gattccattg cccagctatc tgtcacttta ttgtgaagat agtggaaaag 360
gaaggtggct cctacaaatg ccatcattgc gataaaggaa aggccatcgt tgaagatgcc 420
tctgccgaca gtggtcccaa agatggaccc ccacccacga ggagcatcgt ggaaaaagaa 480
gacgttccaa ccacgtcttc aaagcaagtg gattgatgtg atatctccac tgacgtaagg 540
gatgacgcac aatcccacta tccttcgcaa gacccttcct ctatataagg aagttcattt 600
catttggaga ggacacgctg agggcccacc gtcttcggta cgcgctcact ccgccctctg 660
cctttgttac tgccacgttt ctctgaatgc tctcttgtgt ggtgattgct gagagtggtt 720
tagctggatc tagaattaca ctctgaaatc gtgttctgcc tgtgctgatt acttgccgtc 780
ctttgtagca gcaaaatata gggacatggt agtacgaaac gaagatagaa cctacacagc 840
aatacgagaa atgtgtaatt tggtgcttag cggtatttat ttaagcacat gttggtgtta 900
tagggcactt ggattcagaa gtttgctgtt aatttaggca caggcttcat actacatggg 960
tcaatagtat agggattcat attataggcg atactataat aatttgttcg tctgcagagc 1020
ttattatttg ccaaaattag atattcctat tctgtttttg tttgtgtgct gttaaattgt 1080
taacgcctga aggaataaat ataaatgacg aaattttgat gtttatctct gctcctttat 1140
tgtgaccata agtcaagatc agatgcactt gttttaaata ttgttgtctg aagaaataag 1200
tactgacagt attttgatgc attgatctgc ttgtttgttg taacaaaatt taaaaataaa 1260
gagtttcctt tttgttgctc tccttacctc ctgatggtat ctagtatcta ccaactgaca 1320
ctatattgct tctctttaca tacgtatctt gctcgatgcc ttctccctag tgttgaccag 1380
tgttactcac atagtctttg ctcatttcat tgtaatgcag ataccaagcg ggagctcgac 1440
gtccctcagc agtcgctgtg cgatacccat cgtcatccag atcgtcggtg aatccgacag 1500
gattgctaat agcgtttgtg atttcgttgg ctatgtcgtg ttgttcggct atgtcatcca 1560
tgatatcgtg aacatcatct acattcaaat tcttatgagc tttcttaagg gcatctgcag 1620
catttttcat agaatctaat acagcagtat ttgtgctagc tccttcgagg gcttccctct 1680
gcatttcaat agttgtaagg gttccatcta tttgtagttg ggtcttttcc aatcgtttct 1740
tctttttgag ggcttggagt gcaactcttt tatttttcga cgcatttttc tttgctacca 1800
tggtaaattc ttctatcttc ttttctaaaa aatcctgttt ttttattaac atttcttcag 1860
tctctctgag tttttgaata gcctccccag gacaagtact gcgatcgcgt taacgcttta 1920
tcacgatacc ttctaccaca tatcactaac aacatcaaca ctcatcactc tcgacgacat 1980
ccactcgatc actactctca cacgaccgat taactcctca tccacgcggc cgcctgcagg 2040
agcgtcctgg ggaggctatt caaaaactca gagagactga agaaatgtta ataaaaaaac 2100
aggatttttt agaaaagaag atagaagaat ttaccatggt agcaaagaaa aatgcgtcga 2160
aaaataaaag agttgcactc caagccctca aaaagaagaa acgattggaa aagacccaac 2220
tacaaataga tggaaccctt acaactattg aaatgcagag ggaagccctc gaaggagcta 2280
gcacaaatac tgctgtatta gattctatga aaaatgctgc agatgccctt aagaaagctc 2340
ataagaattt gaatgtagat gatgttcacg atatcatgga tgacatagcc gaacaacacg 2400
acatagccaa cgaaatcaca aacgctatta gcaatcctgt cggattcacc gacgatctgg 2460
atgacgatgt agatcgccag cggtactcgc tgaggcctag gctgcatgcg tttggacgta 2520
tgctcattca ggttggagcc aatttggttg atgtgtgtgc gagttcttgc gagtctgatg 2580
agacatctct gtattgtgtt tctttcccca gtgttttctg tacttgtgta atcggctaat 2640
cgccaacaga ttcggcgatg aataaatgag aaataaattg ttctgatttt gagtgcaaaa 2700
aaaaaggaat taagcttac 2719
<210>821
<211>2367
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: pM0N98504
Dv49 concatermer C1 dsRNA expression cassette
<400>821
ggtccgattg agacttttca acaaagggta atatccggaa acctcctcgg attccattgc 60
ccagctatct gtcactttat tgtgaagata gtggaaaagg aaggtggctc ctacaaatgc 120
catcattgcg ataaaggaaa ggccatcgtt gaagatgcct ctgccgacag tggtcccaaa 180
gatggacccc cacccacgag gagcatcgtg gaaaaagaag acgttccaac cacgtcttca 240
aagcaagtgg attgatgtga tggtccgatt gagacttttc aacaaagggt aatatccgga 300
aacctcctcg gattccattg cccagctatc tgtcacttta ttgtgaagat agtggaaaag 360
gaaggtggct cctacaaatg ccatcattgc gataaaggaa aggccatcgt tgaagatgcc 420
tctgccgaca gtggtcccaa agatggaccc ccacccacga ggagcatcgt ggaaaaagaa 480
gacgttccaa ccacgtcttc aaagcaagtg gattgatgtg atatctccac tgacgtaagg 540
gatgacgcac aatcccacta tccttcgcaa gacccttcct ctatataagg aagttcattt 600
catttggaga ggacacgctg agggcccacc gtcttcggta cgcgctcact ccgccctctg 660
cctttgttac tgccacgttt ctctgaatgc tctcttgtgt ggtgattgct gagagtggtt 720
tagctggatc tagaattaca ctctgaaatc gtgttctgcc tgtgctgatt acttgccgtc 780
ctttgtagca gcaaaatata gggacatggt agtacgaaac gaagatagaa cctacacagc 840
aatacgagaa atgtgtaatt tggtgcttag cggtatttat ttaagcacat gttggtgtta 900
tagggcactt ggattcagaa gtttgctgtt aatttaggca caggcttcat actacatggg 960
tcaatagtat agggattcat attataggcg atactataat aatttgttcg tctgcagagc 1020
ttattatttg ccaaaattag atattcctat tctgtttttg tttgtgtgct gttaaattgt 1080
taacgcctga aggaataaat ataaatgacg aaattttgat gtttatctct gctcctttat 1140
tgtgaccata agtcaagatc agatgcactt gttttaaata ttgttgtctg aagaaataag 1200
tactgacagt attttgatgc attgatctgc ttgtttgttg taacaaaatt taaaaataaa 1260
gagtttcctt tttgttgctc tccttacctc ctgatggtat ctagtatcta ccaactgaca 1320
ctatattgct tctctttaca tacgtatctt gctcgatgcc ttctccctag tgttgaccag 1380
tgttactcac atagtctttg ctcatttcat tgtaatgcag ataccaagcg ggagctcgac 1440
gtccctcagc agtcgctgtg cgataccata tcttcatata attgatcaaa atctgccttg 1500
attttagctt caccatcgtg attttgtccg tttctgccag agatgcttta cctaccagct 1560
gcacaatatt acctaaacat ttaacgcgac cagcacgttc gtagaaggaa gccaaacgcg 1620
accaatgcgg tacgtttcat aatagattca gtgtgcccgt caatttcggt tggcaggtaa 1680
tttttcactg actggccttg cttgacgtac aggccataag tactgcgatc gcgttaacgc 1740
tttatcacga taccttctac cacatatcac taacaacatc aacactcatc actctcgacg 1800
acatccactc gatcactact ctcacacgac cgattaactc ctcatccacg cggccgcctg 1860
caggagcatg gcctgtacgt caagcaaggc cagtcagtga aaaattacct gccaaccgaa 1920
attgacgggc acactgaatc tattatgaaa cgtaccgcat tggtcgcgtt tggcttcctt 1980
ctacgaacgt gctggtcgcg ttaaatgttt aggtaatatt gtgcagctgg taggtaaagc 2040
atctctggca gaaacggaca aaatcacgat ggtgaagcta aaatcaaggc agattttgat 2100
caattatatg aagatattag atcgccagcg gtactcgctg aggcctaggc tgcatgcgtt 2160
tggacgtatg ctcattcagg ttggagccaa tttggttgat gtgtgtgcga gttcttgcga 2220
gtctgatgag acatctctgt attgtgtttc tttccccagt gttttctgta cttgtgtaat 2280
cggctaatcg ccaacagatt cggcgatgaa taaatgagaa ataaattgtt ctgattttga 2340
gtgcaaaaaa aaaggaatta agcttac 2367
<210>822
<211>45
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>822
ccaagccctc aaaaagaaga aacgattgga aaagacccaa ctaca 45
<210>823
<211>50
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>823
acgacatagc caacgaaatc acaaacgcta ttagcaatcc tgtcggattc 50
<210>824
<211>46
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>824
tgtgtctgct gatgcagttg ctactaaacc aatcaaacca gcagct 46
<210>825
<211>113
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>825
acaccctaca caaccttata tattaacaag tagtgatgat atgcttatca agctttggaa 60
ttgggaaaaa gcatgggctt gtcagcaagt tttcgaagga cacactcatt ata 113
<210>826
<211>153
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>826
tgttagtatg gatgccagtg gaggcaaaat tatttgggcc agacactctg aacttcaaca 60
ggcaaatctc aaggcgttag ctgaaggtgc ggaaataaga gatggagaac gccttccagt 120
ttctgtaaaa gatatgggtg cttgcgagat ata 153
<210>827
<211>183
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>827
gttgcttctt gctacgagct ccggtgatga aaatttagtc cgtactctag gagaaacgac 60
acaagctgaa agcaaacata acttagcatt tttgtcacac ttgttagtag gtgatttaaa 120
caaatgtcta gacattctta ttaataccgg tagattgcca gaagctgcat ttttcgccag 180
atc 183
<210>828
<211>95
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>828
ccaagccctc aaaaagaaga aacgattgga aaagacccaa ctacaacgac atagccaacg 60
aaatcacaaa cgctattagc aatcctgtcg gattc 95
<210>829
<211>96
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>829
acgacatagc caacgaaatc acaaacgcta ttagcaatcc tgtcggattc tgtgtctgct 60
gatgcagttg ctactaaacc aatcaaacca gcagct 96
<210>830
<211>266
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>830
acaccctaca caaccttata tattaacaag tagtgatgat atgcttatca agctttggaa 60
ttgggaaaaa gcatgggctt gtcagcaagt tttcgaagga cacactcatt atatgttagt 120
atggatgcca gtggaggcaa aattatttgg gccagacact ctgaacttca acaggcaaat 180
ctcaaggcgt tagctgaagg tgcggaaata agagatggag aacgccttcc agtttctgta 240
aaagatatgg gtgcttgcga gatata 266
<210>831
<211>336
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>831
tgttagtatg gatgccagtg gaggcaaaat tatttgggcc agacactctg aacttcaaca 60
ggcaaatctc aaggcgttag ctgaaggtgc ggaaataaga gatggagaac gccttccagt 120
ttctgtaaaa gatatgggtg cttgcgagat atagttgctt cttgctacga gctccggtga 180
tgaaaattta gtccgtactc taggagaaac gacacaagct gaaagcaaac ataacttagc 240
atttttgtca cacttgttag taggtgattt aaacaaatgt ctagacattc ttattaatac 300
cggtagattg ccagaagctg catttttcgc cagatc 336
<210>832
<211>141
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>832
ccaagccctc aaaaagaaga aacgattgga aaagacccaa ctacaacgac atagccaacg 60
aaatcacaaa cgctattagc aatcctgtcg gattctgtgt ctgctgatgc agttgctact 120
aaaccaatca aaccagcagc t 141
<210>833
<211>449
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>833
acaccctaca caaccttata tattaacaag tagtgatgat atgcttatca agctttggaa 60
ttgggaaaaa gcatgggctt gtcagcaagt tttcgaagga cacactcatt atatgttagt 120
atggatgcca gtggaggcaa aattatttgg gccagacact ctgaacttca acaggcaaat 180
ctcaaggcgt tagctgaagg tgcggaaata agagatggag aacgccttcc agtttctgta 240
aaagatatgg gtgcttgcga gatatagttg cttcttgcta cgagctccgg tgatgaaaat 300
ttagtccgta ctctaggaga aacgacacaa gctgaaagca aacataactt agcatttttg 360
tcacacttgt tagtaggtga tttaaacaaa tgtctagaca ttcttattaa taccggtaga 420
ttgccagaag ctgcattttt cgccagatc 449
<210>834
<211>590
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: synthetic
Primer
<400>834
ccaagccctc aaaaagaaga aacgattgga aaagacccaa ctacaacgac atagccaacg 60
aaatcacaaa cgctattagc aatcctgtcg gattctgtgt ctgctgatgc agttgctact 120
aaaccaatca aaccagcagc tacaccctac acaaccttat atattaacaa gtagtgatga 180
tatgcttatc aagctttgga attgggaaaa agcatgggct tgtcagcaag ttttcgaagg 240
acacactcat tatatgttag tatggatgcc agtggaggca aaattatttg ggccagacac 300
tctgaacttc aacaggcaaa tctcaaggcg ttagctgaag gtgcggaaat aagagatgga 360
gaacgccttc cagtttctgt aaaagatatg ggtgcttgcg agatatagtt gcttcttgct 420
acgagctccg gtgatgaaaa tttagtccgt actctaggag aaacgacaca agctgaaagc 480
aaacataact tagcattttt gtcacacttg ttagtaggtg atttaaacaa atgtctagac 540
attcttatta ataccggtag attgccagaa gctgcatttt tcgccagatc 590
<210>835
<211>657
<212>DNA
<213>Diabrotica virgifera
<400>835
gtaaattcaa attacaaacc atattagtca cccgtaaaat gtataaactc accattatta 60
caaaactttt tctttgactt ctcaaaaaca aacaatgtgg cgcttacaat gtttttcagc 120
ggacccattc aattatttta aacttatcac ttggatccga tgcacttcat caatagctaa 180
aaaaattttg ctccttgtat ctcatcttct agtataagtt cacattttct ttcattttct 240
agaacccgca aaactttaat aagtacctct tgattcattc caaaaaagat tgcatctgaa 300
acatcctctc cttgtgtgag ttcaaataat gtaaccactg tattttgcat acccctttca 360
caaatagaat catatacaat gctagcccat tcctcttggg tatgccaata gatttcccac 420
cggtttttgt ttttatctac aggagatgca tggccacttt tttgcaattc gcttagtata 480
gagattataa cgttttgttc taattttctg tttattgatg aattattaaa taaaggtgac 540
tggtttgtgt ctcttacatc tagggtgtaa gttttggttt gttcgcaaaa gtttaaaatt 600
aatgacttcc atgcatctac ttgctttgct cttgtttcag gatgtggctg caacgtg 657
<210>836
<211>1251
<212>DNA
<213>Diabrotica virgifera
<400>836
catatctctc caaactatgg cgcgttcgga ttcatttttc agacggacaa accggccttt 60
tggcgacatc tttgcattaa agctctgagc atgaactgtt tcctggacaa ggttcgcact 120
tgtctcaaaa acacctctaa atcgatgact ccacatctca atgcctctcc catgtaataa 180
atagtgtctt ctaaggcagc ttcttcagcg aatgcattca ataattgttt atataaagga 240
gctgtcgttg ttaccgcatc atctacatct atagattctt gattacttat tcgttctatg 300
gccttattta gttcttgttc tttgtcttgt agcattgtaa tatttttgtc tagatcattc 360
ttttcttttt ctaatcggct caatataccg tccaacttca attttccttg cttcaactcc 420
tcctgtgtcc tcttgagcgt ctctagttca gcttgattct gctggaattg ttccttcatt 480
cttctaagca gcttctcttc caaagctgtc atcagagatt ccctgatatg ttcttctttt 540
atagtacctg ttccggcctg aggtccaggg gggaaattaa atggatactg cggttgcgaa 600
gaagggtagg gtggatatcc ttggaaagaa ttgttgctgg ttggaggata tggagggtac 660
ccgccgaaac ctcctgatgc tggtgggtag ggggtaggat acggaggcat gtaaccacca 720
gatggttgag gcatgaatga atttgacgga tacgattcat tgtctttggc cctagcaaac 780
actggaggtt gttcgccaaa tgtaacaatc ataacttgga ttaatcctag caaatctgat 840
tcattcggca cccaatcgtg caaatatggc agataaactt ttccattttg atctacaaac 900
atggaaactt ttatggacat gtcggaagtc ggtttaacat agcaaatggg agcattctct 960
ggatgtgtgt caattaacca tatacaaatt ggaatattat aaatattgcc tttgtaacgc 1020
acaggaattg taccagttaa gttaatgaga tccattcttg tgccatcgtt gaaggtgtag 1080
acactctgtt ctggatgtaa acctctgtat tgtgtggtga tgttgattat ttctctataa 1140
gctacatcag gattgtgata agcagttagc caagtcctaa gtctctccgt atctaccatt 1200
ttctacgaat taatttcttg ccagctaaaa ctatcgagat ctagagttct c 1251
<210>837
<211>669
<212>DNA
<213>Diabrotica virgifera
<400>837
gtcagcagaa aatcgccctg agctgtatga ggaagtcaag ctatatcaca atgccaggga 60
aagagagaag tacgataatt tagcagattt gtatgctgta ataaacactt tgcaacaatt 120
agagaaggca tatattcgag attgtgtagt ggcaaaggaa tatacaggag cttgtagtaa 180
attattagtt cagtataagg ctgcgtttcg acaagtcaag agtgatgaat ttcctacacc 240
agacgccttt gttaagaagt acaggcttga ctgtcctgca gctttagaac gtatcaagga 300
agataggcca atcactatca aagacgacaa aggcaacact agtcgatgca ttgctgatat 360
cgtatcgcta ttcatcacta taatggacaa actgcggttg gacattcgtt cgatggataa 420
cttacatcct gacgtgaggg acttagtaga tactatgaac agacttagca ttctgccatc 480
ggatttcgat ggaaaggtaa aagtggctga atggttaaat actttaaatg aaatgcaggc 540
ctctgatgaa ttatccgaag ctcaagtgag gcaactgttg tttgatcttg aaagtgcgta 600
tgcgtccttt aataaagtcc ttcataattc tgcctaaatg tacgagatag ttgttatgat 660
tgttacacg 669
<210>838
<211>793
<212>DNA
<213>Diabrotica virgifera
<400>838
gatggtaggg tgacgagcag tgtgactcat ttttaatttt atattgtcaa atatttaggt 60
gttttgctgg ttattattat tatattattt aaaaatggag tggttatttg gaaaaaaagt 120
aacccccgaa gaaatgcttc gtaaaaacca acgagcatta aataaagcca tgagagattt 180
agatagagaa aagcaaaaga tggaacagca ggagaaaaaa gtaataaacg atattaaaaa 240
attagccaag gaaggtcaaa tggacgctgt caaaataatg gctaaagatc tggtcagaac 300
tagaaggtat gtgaagaaat tcatgttgat gaaggctaac attcaagcag tatcattgaa 360
aattcagact cttagatccc aaaatacaat ggcacaagct atgaaaggtg tcactaaagc 420
tatgcaaagt atgaataggc agctaaattt accacagata caaaggatat tacaagaatt 480
tgaaaagcag tctgaaatta tggatatgaa ggaagaagtt atgaatgatg ccattgatga 540
tgcgatggaa ggagatgatg atgaggagga aactgacgca gttgtcaatc aagttttaga 600
tgaattgggt cttcaattga atgatactct ttctggactg cctcaaaccg ctggatctct 660
tcctgcctct gggcaaaaac atcctgcagc tgcagctgct gttgcaggag gaggtaatgg 720
tggcactggt actggaggca gtggtggaaa cagtggcggc ggaggtggcc tttctgatgc 780
cgatgcggat ttg 793
<210>839
<211>767
<212>DNA
<213>Diabrotica virgifera
<400>839
gctacctcct cttcatcctc tgattcttcc tcattgactt ccactttagg ttcttctgaa 60
ggcacggaag gcatctcttg ctcaatcata ccagccaatt cttcttctac agctgcttca 120
tcttcatctg tcaattgacc actaagaagt tcgttaatct cattctgttt gtcaacccct 180
tctcttgttt catccaatat acgttcaata tcttcaattt tgagggaatc attaatttgt 240
ttcaaagctt cgttgcctgc ttttagacca ctcactactt gagtttctaa ctgggcgaac 300
tctatatcac tagccatttt atcgagatta tcaagttgta catctagctt ggacaacagc 360
tgttcttgat acctcttctt cttaagtaaa agttttgctc tgtctctttg gccattgtta 420
agtaacttct tagctatatc tttatcttta ccaagtgaga gctcaattct tttttggtat 480
tgtctcaatt tatctctttg ctgtttgagc tgtaacactg ctttatcgtg ttctgttact 540
ctggagggag gctttttttt actaaaaaag atacccattt tattacttta gtaaaatata 600
aaatttctct tgatttgtgt tattcaaaaa attgatacca tccttatatt atagttttcc 660
tattatcaca cgttttatgc tgttttctta tatcttttag gactaatttt taatcagggt 720
tgccagatga aatttcagaa tatccctaga cgggagcttc aatttcc 767
<210>840
<211>588
<212>DNA
<213>Diabrotica virgifera
<400>840
ctgcttcaaa gaaggaccac atgactaccc tagaatttgt gctttcattg atgcttctat 60
gaattctgtc tctaacctgc atatattctt gttcttgttt tacaccagac aatgaatttg 120
taagttctct gatcatttcc tccaacttat tagcattttc accttcttgt tgttctgcct 180
ttggagattc cccaacagcc atattaaaca taacaacttt aggtgtcata gttgacatct 240
tgtttgagaa acaatatgta tatataccag atgtgtgggc tgcaaatgtg tattttccgg 300
cagtttccct ttcaccctgg tataagttct ggccgtttgg atctataata cgcacatcta 360
tgtcaaggaa tcctccttct gctatttcaa aagtgagacc catttttgtg ccagcttcca 420
ctttgtcaaa gaaacattct tctgcatgtg catctactgt gataaaatag gccaaacttt 480
gatttatgcc caaacaaacc agtgaaataa ggaagccgaa aagatacatg tttactttaa 540
attaaaatta gaaaacttcg gccacgtaac ctctcacact tgacgttc 588
<210>841
<211>1098
<212>DNA
<213>Diabrotica virgifera
<400>841
cctgtacttt cctgtatcct catgttcact gtctaccgtt ttactcactt cctttgttaa 60
tactaatacc atttcttcta tgttccgtga agagactaat tcaagggcta gacttaaagt 120
cttcttgcgg acttctaagt caggagcaga gagtactctc agtatgtcca taactaaatc 180
ctgcagaatt ctttcgtgat taggaagctc cttaagtgct atcagcctgt ccaaaacgat 240
gagttttaca ttgttgtcac tttctttgat aattaactca atgtaacagc tagcagcagc 300
tttaacggca gtcggggcac tggagagggt gactaaagtt cctgcagctt cgtacctgac 360
agcaggactg cttgagttca acaagttata tatacatcta ataaatctag atctttccgc 420
aggattggaa tgacacacct tatatatcaa ctcaacgatg accagttgta gaatatctcc 480
aaatgaattt acttgatcta aacatgatgc caaatacgac aacgcccttt cttggtcagc 540
atgaagaagc attaaaaacg catttctttt acaagacatg tcttgctcac catccaaata 600
attggagatc agttcaggag catctggaat gagggcttca aaatttttgt aaatggtaaa 660
aattgccagt acagcattcc tcctcacata gctgtgccta tgatccaaac aagctctaat 720
actgggcatt aatggttcca acaattctgg ttccttcagt ttgcacaaga agcgaagtgt 780
agaacctctc aaaaattcat ttgggtgttg cagatctttt ctataggcat cacataccaa 840
aatcatctct tgtagtagtt taccttctgg atttgttttt ggaactattt cccagaaaat 900
caataatagt ttttttgcca aatgatcttg tagaggtaaa acgtttctta taatggtcat 960
taggaatcca ttcggcaacc tttctcctgc cagaatcatg tgaattattt tttctaatgc 1020
tcttattttt actttaacct cacccttttc taaatccatt tttagttgca tttcattgta 1080
gggctccgaa tctgttgg 1098
<210>842
<211>718
<212>DNA
<213>Diabrotica virgifera
<400>842
ccttgttctt gattggaact gggttttgtt tcatttgcag aacgatggaa cgcattcgag 60
aaacgtcttt gctgccttgt tttgctttag gattgaaatc acacaatttt gctattcttt 120
cccattcggt tcccggttct agttcgtcat cttcggctac gaactgcttt tcagcgttcc 180
tattagcagc ttttgtcttg gctatagctt cttcgtgatt cttgtaccaa tcttctaatt 240
ctttctttgc tacttccctc aattcttgct tctttttctc ttcttcctga tctttttcct 300
ccaacctctt gatttgctct tccctccata acctgatctt ttctggttct actctatctt 360
cttgtcttat tgtaagtggg gacactcttt ccctgtattc tttatctgga tcaaaatcgg 420
ctgggatatc attaaacttt ggctcttcca aaaaaccatc tggaccattg ttttctacca 480
tttcaaaact gctcgcagaa ttggttgggt catcaccatt aagaactgga gcaataactg 540
cggccggttt cacttcatct tcaaggcctg ctagttcgtc ttgctcgcgt gccaagaatt 600
ctgccgctgg gtcttcgtcg gcaactccaa aattgtctcc aaatccagac attcttgatt 660
ttgttaatct taaggataag aaaagctgct attttcccac tgacactgac agcaaagc 718
<210>843
<211>842
<212>DNA
<213>Diabrotica virgifera
<400>843
caatcaagct ggaatggtag aaactgaagg ggaatattgc tggcaaatcc tgtgaaaatc 60
attttctttt atcttcagat cacgaatgta tggatgatca ggatttgcat ccttcaactg 120
agacagatat ctattagcaa tctcaggtgc tttggccata tgtctctgaa gagtgatcat 180
gttaacaagt gtatcaggat agttggcatc cttatcaagt gcttcttgaa gagctgcttc 240
ggcttcctca tatttggctt ggccaatgaa agtcactgct tgtccgttta gcaacaatgg 300
agtggatcca tatttgtcta caagttcttg gtaaatatag taggcgtcct ggagtttatc 360
tccaccagtg gatacattaa tccaagcttg agccagttgt gttaaagttg catcatcgtc 420
cttatcttgc atctctttca gcttcttcct tgccaaatct actctatcca atttcaaaag 480
tatatctata ataaaggcca ttgcttcgag gctttctgta gcgtgcaaaa ctttatacgc 540
agcatcaaga ttgccttcgt taacataaat agtagctgct accaaaatta gagtatcatt 600
gttagcattt gcttggactt gttgctccac ttgagccacc acagaatcct tcttgatttt 660
gcctgctaag tagtcagcga ggtatttcag gggttggatt tctgggggag atgccccgtg 720
gatttcgtct aatactacta ggaatttatt ttgggccata taggaccggt aggtgtagaa 780
gtctctttgg actgctactt cgggcgttga cggctttctg agtttttgtg cctcgtttat 840
gc 842
<210>844
<211>679
<212>DNA
<213>Diabrotica virgifera
<400>844
cttctgcaaa agatttggca tacgagatca tgtgcaggta tatcaggaaa aagtcagatc 60
ctctttgcta tagtctacac tacaagatac cttgacttag tgacgtcata tgtatctatg 120
tacaatactg ttatgaaatt tgtatttttg gccacatcgt atgcaactat ttatttaatc 180
tacatgaaat ttaaagccac ttatgaccat aaccatgaca cgttcagaat agagtttctc 240
attttaccat cgtttggttt ggctatgctt atcaatcacg agttttcatt tatggaggtc 300
ttgtggactt tcagtattta tttggaatca gtggctatat tgccgcaatt gttcatggtc 360
agtaaaacag gagaagcaga aagtattact tcgcactact tattcgcatt gggatcttat 420
agggccctat acattttgaa ctggatctac cgctatgcaa ctgaaactca ttacgatctc 480
atcgctatag tagctggtgt tgtgcagact atattatatt gtgacttctt ttatctttac 540
attactaaag tactcaaggg aaagaaacta caattgcccg cttaaacccc tcttatataa 600
gacttaactg tacaaacatt ttactttcag ctaaacggta ttaacacaat gatgcctaat 660
gatcatgtgt ttggatagc 679
<210>845
<211>725
<212>DNA
<213>Diabrotica virgifera
<400>845
atgtataaga gggatcgggc cagaaagctg cagataatgc ggcagcggca gttggcggcg 60
caaacgttga ggggcggatt agggcccgat atgtattccg gacaaccggg cacttcgcct 120
ttcgccaaca tccacatcaa acaagaaata caaatacctc aagtgtcctc ccttacctca 180
tcgccagatt cgtcgcccag tcccatagca gtagctttag gccaggtgaa ctcctcgttg 240
gtgcagccca cgtccaatca gcagcccgct ctccagatcg tcggcgttcc tggaggtcac 300
tcgtcgatgg tcatgggccc ggataacaaa ctctgggccc aagcgaactc caccaccaca 360
tcacccctta gtcccaaagt gttccaattc gagactgtcg taccgggcag cagtgtaccg 420
ccttcgagta aagtgtcgcc gctcattagg gatttcgttg ccgccgttga cgatcgcgaa 480
tggcaaaact ctttgtacac tcttttacaa aaccagacgt acaatcagtg tgaagtggac 540
ttatttgaac taatgtgtaa agttttggac caaaatctct tttctcaagt cgattgggcg 600
aggaattcga tattctttaa agatctcaag gtggacgatc aaatgaaact tctgcagcat 660
tcatggtcgg atatgttggt gctggatcac atacaccagc gcacgcacaa taacctaccc 720
gacga 725
<210>846
<211>864
<212>DNA
<213>Diabrotica virgifera
<400>846
gcgtgggcgt ggcttataat gctagtatag gaggtgtacg tatgttagat ggtgtagtaa 60
acgacgcagt tgaagccaga gccctaggtc taaacccgga acacatcgac atctacagcg 120
cttcctgggg acctgaagac gacgggaaaa ccgtagacgg tcccggacca ttagcaagac 180
gagcttttat atacggagta actagtggga gaaaaggaaa aggatctatt ttcgtttggg 240
cttcgggaaa tggaggccga catacggatt cctgcaattg tgatggatac accaacagta 300
tctttacctt gagtatatct agtgctacac aaggaggtta caaaccttgg tatttggaag 360
agtgttcttc aacattagca acaacttaca gctcaggaac acctggacat gacaaaagcg 420
tcgcgactgt tgatatggac gctagattac gaccagatca tatctgtact gtagaacata 480
ctggaacttc agcttcagca cctttagctg ctggaatatg cgccctagct cttgaagcca 540
accccacgtt gacgtggcgt gacatgcaat atttagtagt actaacttca agagctcctc 600
cactggaaaa agaggctgga tggatagtaa acggcgttgg gcgaaaagct tctcataaat 660
ttggttatgg tctcatggac gctggtgctt tggttacttt agctgaaaaa tggactacgg 720
taccacctca acacatctgt aaaagtcagg aaattgtaga agatcgacca attaatcctg 780
cctatggttc cagtttgaat ttcaatatgg aagtagacgc atgtagtggt accttgaacg 840
aagtcaggta cctggagcac gtgc 864
<210>847
<211>140
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.1 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv49 order is formed
<400>847
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac 140
<210>848
<211>210
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.2 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv49-Dv2 3 orders is formed
<400>848
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa 180
ctacagaggt acagaaaaag ggtgtcaagg 210
<210>849
<211>280
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.3 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv49-Dv23-Dv20 order is formed
<400>849
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa 180
ctacagaggt acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca 240
cacggtgctg cacaattctt aagagagagg ctgtttgaag 280
<210>850
<211>350
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.4 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv49-Dv23-Dv20-Dv13 order is formed
<400>850
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa 180
ctacagaggt acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca 240
cacggtgctg cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat 300
ttgactccct ttcctcttgg gagggaaacg aaggccttag ctcccttacc 350
<210>851
<211>420
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.5 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv49-Dv23-Dv20-Dv13-Dv22 order is formed
<400>851
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt 120
tgctactaaa ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa 180
ctacagaggt acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca 240
cacggtgctg cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat 300
ttgactccct ttcctcttgg gagggaaacg aaggccttag ctcccttacc tcatcgtccg 360
tttggattca caaaaacaca tcgacttctc tctgaaatca cctttgggag gcggtcgtcc 420
<210>852
<211>140
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.6 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv23 order is formed
<400>852
ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt tgctactaaa 60
ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt 120
acagaaaaag ggtgtcaagg 140
<210>853
<211>210
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.7 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv23-Dv20 order is formed
<400>853
ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt tgctactaaa 60
ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt 120
acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg 180
cacaattctt aagagagagg ctgtttgaag 210
<210>854
<211>280
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.8 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv23-Dv20-Dv13 order is formed
<400>854
ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt tgctactaaa 60
ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt 120
acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg 180
cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat ttgactccct 240
ttcctcttgg gagggaaacg aaggccttag ctcccttacc 280
<210>855
<211>350
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.9 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv23-Dv20-Dv13-Dv22 order is formed
<400>855
ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt tgctactaaa 60
ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt 120
acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg 180
cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat ttgactccct 240
ttcctcttgg gagggaaacg aaggccttag ctcccttacc tcatcgtccg tttggattca 300
caaaaacaca tcgacttctc tctgaaatca cctttgggag gcggtcgtcc 350
<210>856
<211>420
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.10 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv23-Dv20-Dv13-Dv22-Dv18 order is formed
<400>856
ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt tgctactaaa 60
ccaatcaaac gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt 120
acagaaaaag ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg 180
cacaattctt aagagagagg ctgtttgaag tctcttcagc aatagacaat ttgactccct 240
ttcctcttgg gagggaaacg aaggccttag ctcccttacc tcatcgtccg tttggattca 300
caaaaacaca tcgacttctc tctgaaatca cctttgggag gcggtcgtcc gatccttttc 360
gatttgttgc tgccattggg gatccatctg gacttctgga ggaagcaagg caggtgcagc 420
<210>857
<211>140
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.11 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv20 order is formed
<400>857
gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt acagaaaaag 60
ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt 120
aagagagagg ctgtttgaag 140
<210>858
<211>210
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.12 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv20-Dv13 order is formed
<400>858
gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt acagaaaaag 60
ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt 120
aagagagagg ctgtttgaag tctcttcagc aatagacaat ttgactccct ttcctcttgg 180
gagggaaacg aaggccttag ctcccttacc 210
<210>859
<211>280
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.13 concatermer of highly effective WCR target, about 50%GC standard is by 5_3 '
For the fragment of Dv23-Dv20-Dv13-Dv22 order is formed
<400>859
gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt acagaaaaag 60
ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt 120
aagagagagg ctgtttgaag tctcttcagc aatagacaat ttgactccct ttcctcttgg 180
gagggaaacg aaggccttag ctcccttacc tcatcgtccg tttggattca caaaaacaca 240
tcgacttctc tctgaaatca cctttgggag gcggtcgtcc 280
<210>860
<211>350
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.14 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv20-Dv13-Dv22-Dv18 order is formed
<400>860
gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt acagaaaaag 60
ggtgtcaagg ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt 120
aagagagagg ctgtttgaag tctcttcagc aatagacaat ttgactccct ttcctcttgg 180
gagggaaacg aaggccttag ctcccttacc tcatcgtccg tttggattca caaaaacaca 240
tcgacttctc tctgaaatca cctttgggag gcggtcgtcc gatccttttc gatttgttgc 300
tgccattggg gatccatctg gacttctgga ggaagcaagg caggtgcagc 350
<210>861
<211>140
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.15 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv20-Dv13 order is formed
<400>861
ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt aagagagagg 60
ctgtttgaag tctcttcagc aatagacaat ttgactccct ttcctcttgg gagggaaacg 120
aaggccttag ctcccttacc 140
<210>862
<211>210
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.16 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv20-Dv13-Dv22 order is formed
<400>862
ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt aagagagagg 60
ctgtttgaag tctcttcagc aatagacaat ttgactccct ttcctcttgg gagggaaacg 120
aaggccttag ctcccttacc tcatcgtccg tttggattca caaaaacaca tcgacttctc 180
tctgaaatca cctttgggag gcggtcgtcc 210
<210>863
<211>280
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.17 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv20-Dv13-Dv22-Dv18 order is formed
<400>863
ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt aagagagagg 60
ctgtttgaag tctcttcagc aatagacaat ttgactccct ttcctcttgg gagggaaacg 120
aaggccttag ctcccttacc tcatcgtccg tttggattca caaaaacaca tcgacttctc 180
tctgaaatca cctttgggag gcggtcgtcc gatccttttc gatttgttgc tgccattggg 240
gatccatctg gacttctgga ggaagcaagg caggtgcagc 280
<210>864
<211>140
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.18 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv22 order is formed
<400>864
tctcttcagc aatagacaat ttgactccct ttcctcttgg gagggaaacg aaggccttag 60
ctcccttacc tcatcgtccg tttggattca caaaaacaca tcgacttctc tctgaaatca 120
cctttgggag gcggtcgtcc 140
<210>865
<211>210
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.19 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv22-Dv18 order is formed
<400>865
tctcttcagc aatagacaat ttgactccct ttcctcttgg gagggaaacg aaggccttag 60
ctcccttacc tcatcgtccg tttggattca caaaaacaca tcgacttctc tctgaaatca 120
cctttgggag gcggtcgtcc gatccttttc gatttgttgc tgccattggg gatccatctg 180
gacttctgga ggaagcaagg caggtgcagc 210
<210>866
<211>140
<212>DNA
<213〉artificial
<220〉artificial sequence note: the C6.20 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv22-Dv18 order is formed
<400>866
tcatcgtccg tttggattca caaaaacaca tcgacttctc tctgaaatca cctttgggag 60
gcggtcgtcc gatccttttc gatttgttgc tgccattggg gatccatctg gacttctgga 120
ggaagcaagg caggtgcagc 140
<210>867
<211>70
<212>DNA
<213>Diabrotica virgifera
<400>867
catcacgact atcctactag tggagaagta tgcgaagtcg atgtcagaga ttgggaagaa 60
tgcaacaggg 70
<210>868
<211>70
<212>DNA
<213>Diabrotica virgifera
<400> 868
ctccaagtgc caggtccaac tcaactgccg gctgtgtctg ctgatgcagt tgctactaaa 60
ccaatcaaac 70
<210>869
<211>70
<212>DNA
<213>Diabrotica virgifera
<400>869
gatgaggaac agacagaaca aaccgcaact gaaacggcaa ctacagaggt acagaaaaag 60
ggtgt caagg 70
<210>870
<211>70
<212>DNA
<213>Diabrotica virgifera
<400>870
ggtgagatgg aacgagattg tcaaatttca cacggtgctg cacaattctt aagagagagg 60
ctgtttgaag 70
<210>871
<211>70
<212>DNA
<213>Diabrotica virgifera
<400>871
tctcttcagc aatagacaat ttgactccct ttcctcttgg gagggaaacg aaggccttag 60
ctcccttacc 70
<210>872
<211>70
<212>DNA
<213>Diabrotica virgifera
<400>872
tcatcgtccg tttggattca caaaaacaca tcgacttctc tctgaaatca cctttgggag 60
gcggtcgtcc 70
<210>873
<211>70
<212>DNA
<213>Diabrotica virgifera
<400>873
gatccttttc gatttgttgc tgccattggg gatccatctg gacttctgga ggaagcaagg 60
caggtgcagc 70
<210>874
<211>1358
<212>DNA
<213>Diabrotica virgifera
<400>874
cttgttgaat tggaggaggt ggcttcaaaa attttgcatt tggatctaca tctggaaaac 60
ctttcttttc tccaatttgt tccttcagct gttcagcttc atctaccatt ccgtgagtag 120
cagctgtcaa gtaggccaaa gaaagttgat tggaagcctt caaaatttta acacgctctt 180
caagatcacc aagcaaaagt gcagcatgat attgagatga tttagctttt ctaatttccg 240
caattttcat catttttctc aatttgtcca ggttgccggt aatcagatat aggaatgata 300
atttttcgaa actcttggtc ctttgataac acatctcaac tacttgatgg tttccttgcc 360
atagagcagc atgtgctagt tgatcccaac aagctttgtc attcaaagat ttcgcagcat 420
ctagagcaat ctcaatattt ccacattcca gagccaaagt aaatcgagtt ttgtcgtctt 480
ttacaaaatg taaggctact tcaggataac ctttttgttg taagtaagaa atcatagatt 540
gtcccaccaa ttttgaattt ctaaccatat acaaaacttc ttcatatttg tgattaatta 600
atgcaagttt gaatttgtat tccattgaat ccactgtcaa tacccgtggt ttgcattcac 660
gatcaaggca aaagatctgg tttcctctta ctctggtgat gtatattgga agatcgaggg 720
ttctaataat tccttggtca ccgtttttaa gtgtatattt caaaatggtt gcttgtagta 780
taaataaaaa ctcctgtatc atcccaagct ccagatttca ctctagtatt ttcgtgtaaa 840
caacataaaa catccaattt cctattacaa atagtcacgt tgtgtttgga aaggagagcc 900
aagtgggaca tatcagacga ccagacaacg tatctgcatt tgttaatttt cacttgtgct 960
aaagttctct tctgttgaac gtcaaacaga gtaacatgtt cagaatctct taataacagc 1020
attccagtac cagcataaaa tacttcatca catgtaggag tttgtacctt cttggtgact 1080
tcgtttttca agttcttgat aattagttga tgagtcctgt ccaaaacggc aaatctgttt 1140
cttgcaaccc ataatgccgt aagtccagaa gaccttttgc tttcagcttc tggtacttga 1200
tcatctctct cctgctcttt tggaatcaca tataaatcgt atgtgctatt atccaagttt 1260
gaagttcttg tagaaagaag aacagcattt tcagctggat taaaggacat cttataaact 1320
ggtatttttc ctccaccacg aatctgaatg actggaac 1358
<210>875
<211>2714
<212>DNA
<213>Diabrotica barberi
<400>875
atgccacttc gattagatat aaaaagaaag ctaacagctc gctcagaccg ggtaaaatgt 60
gtggatcttc accctacaga accttggatg ctatgttctc tttacagcgg aaatataaac 120
gtttggaaca ccgaaaatca gcaactggtt aagacttttg aagtatgtga tgtacccgtt 180
cggacagcta agtttttgcc caggaagaac tggatagtca gtgggtctga tgatatgcag 240
attcgagttt tcaattacaa taccttagat cgggtacatt cttttgaggc tcattcggat 300
tatgtgagat gtattgtcgt acaccctaca caaccttata tattaacaag tagtgatgat 360
atgcttatca agctttggaa ttgggaaaaa gcatgggcct gtcagcaagt tttcgaagga 420
cacactcact atattatgca aatcgccata aatccaaaag acaacaacac atttgccagt 480
gcatccctag acagaacatt gaaagtatgg caattgggag cgtccacagc caatttcaca 540
ctagaaggtc acgagaaagg cgttaactgt gtggactatt atcatggtgg agataagcct 600
tatttaatct caggtgctga tgatagatta gtaaaaatct gggattatca aaacaaaact 660
tgtgttcaaa ctttagaagg acatgctcaa aatgtaactg ctgcatgttt ccatccagaa 720
cttcctgtag ctcttactgg aagtgaagat ggtactgtca gagtgtggca tgccaacacc 780
catagattag aaagtagctt aaattatggt tttgaaagag tgtggactat tttctgccta 840
aagggatcca ataacgtggc attgggttat gatgaaggta gcattttggt taaagttggt 900
agagaagaac cagctgttag tatggatgcc agtggaggca aaattatttg ggccagacac 960
tctgaacttc aacaggcaaa tctcaaggcg ttagctgaag gtgcggaaat aagagatgga 1020
gaacgccttc cagtttctgt aaaagacatg ggtgcttgcg agatataccc tcagacaatt 1080
caacacaatc ccaatggccg ttttgtcgtt gtctgtggag atggagaata cataatctac 1140
acagcaatgg ctttaagaaa caaagccttt ggtagtgcac aagaattcgt gtgggctcaa 1200
gattccagcg aatatgccat cagagaatcc ggatctacta tcagaatttt taagaatttc 1260
aaagagaaga agaattttaa gtccgacttt ggagctgaag gtatatacgg tggatacctt 1320
ttgggagtca aatcagtttc tggtttgact ttctacgatt gggaaactct tgatttagta 1380
agaagaatcg agatacaacc aaaagcagtt tactggtcag atagtggtaa attagtatgt 1440
ttggctacag aagatagcta ctttattctt tcttatgatt ccgatgaagt tcaaaaagcc 1500
agagataaca atcaggttgc ggatgatgga gtagaatcgg ctttcaatct tctaggtgaa 1560
ataaacgaat cagtgcgaac tggtctctgg gtaggcgact gttttattta cacgaattct 1620
gttaatcgta tcaactactt cgttggaggt gaactggtta caattgccca tttggatcgg 1680
cctttatatg tcttgggata tgtgcctaaa gacgatagat tatacctcgt agataaagag 1740
ttgcgcgtag taagctacca attacttctc tccgttcttg aataccaaac tgccgtcatg 1800
agaagagact ttccaacagc cgatagagta cttccgtcca ttcctaagga gcacagaacg 1860
agagtcgcac atttcttaga aaagcaaggc ttcaaacagc aagctttggc cgtaagtaca 1920
gatccagagc acagattcga gctggcagta gcattagagg atcttaacac agccaaaatt 1980
ctagctcaag aagcaaacag tcctcaaaag tggaatcaac tagcagaatt ggctgccgct 2040
actaataatg taagcttagc caaggaatgt atgcaaaaag cgcaagatta tggaggctta 2100
ttgcttcttg ctactagttc aggggatgaa aatttagtcc gtactctagg agaaacgaca 2160
caagcagaaa gcaaacataa cttagcattt ttatcacact tgttagtagg tgatttaaac 2220
aaatgtctag acattcttat taataccggt agattgccag aagctgcatt tttcgccagg 2280
tcttaccttc ctgataagat tacggaagtc gtagaacttt ggaagactca gttgtcttca 2340
gtcaatcaaa aagctggaca gagccttgcc gatcctaaaa actacgaaaa tctgttccct 2400
ggtttacaag aggcggtggt agctcagaaa tttttggaac agcagaataa aggtttagca 2460
cctgcgagaa ttgccaccac cattcctcct aatcacgaca ggaatgttgt agcagaagtt 2520
caagcacaat cgaaactcga cataccatca tttagttctt catttatttc atcagaaata 2580
gaagcacaaa caaggagttc tgctaaacct gaagagtctt caaacattat acagctggac 2640
caagatgacg acgatatcga tttagatttg gacggtgtaa atatcgatga aaacattgac 2700
acgacggata tcaa 2714
<210>876
<211>2669
<212>DNA
<213>Diabrotica balteata
<400>876
taacagctcg ctcagaccgg gtaaaatgtg tggatcttca ccctacagaa ccttggatgc 60
tatgttccct gtacagtgga aatatcaatg tttggaatac cgaaaatcaa caactggtta 120
aaacttttga agtatgtgat gtacctgtac gaacagctaa gtttttaccc agaaagaact 180
ggatagtcag tggatctgat gatatgcaga ttcgagtttt caattacaat accttagatc 240
gggtacattc ttttgaagct cattcagatt atgtgagatg tattgtcgtt catcctacac 300
aaccttatat attaacaagt agtgatgata tgcttatcaa gctttggaat tgggaaaaag 360
catgggcttg tcagcaagtt tttgaaggac acactcatta tattatgcaa atcgccataa 420
atccaaaaga caacaacaca tttgccagtg catctttaga tagaacattg aaagtatggc 480
agttgggagc atcaacagcg aatttcacac tagaaggtca cgagaaaggt gtaaactgtg 540
tggattatta tcatggtgga gataagcctt atttaatctc aggtgctgat gatagattag 600
taaaaatctg ggattatcaa aataaaactt gtgttcaaac tttggaagga catgctcaaa 660
atgtaacggc tgcttgtttc catccagaac ttcctgtagc ccttactgga agtgaggatg 720
gtactgtcag agtgtggcat gccaacaccc atagattaga gagtagctta aattatggtt 780
ttgaaagagt atggactatt ttctgcctaa agggatcaaa taatgtggca ttgggttatg 840
atgaaggtag cattttggtt aaagttggta gagaagaacc agctgttagt atggatgcca 900
gtggaggtaa aattatttgg gctagacact ctgaacttca acaggcaaat ctcaaggcat 960
tagctgaagg tgcagaaata agagacggag aacgccttcc agtttctgta aaagatatgg 1020
gagcttgcga gatataccct cagacaattc aacacaatcc taacggccgt tttgtcgttg 1080
tatgtgggga tggagaatac ataatctaca cagcaatggc tttaagaaac aaagcttttg 1140
gtagtgcaca agaatttgtg tgggctcaag attccagcga atatgccatc agagaatccg 1200
gatccacaat cagaattttt aagaatttca aagagaagaa gaattttaag tccgactttg 1260
gagctgaagg tatatatggt ggttaccttt tgggagtcaa atctgtttct ggtttgactt 1320
tctatgattg ggaaactctc gatttggtaa gaagaatcga gatacagcca aaagcagttt 1380
actggtcgga tagtggcaaa ctagtatgtt tggctacaga agacagctac tttattcttt 1440
cttatgattc cgatgaagtt caaaaagcca gagataacaa tcaggttgcc gatgatggag 1500
tagaatcagc tttcaatctt ctaggtgaaa taaacgaatc agttcgaact ggtctgtggg 1560
taggcgactg ttttatctac acaaattctg ttaatcgtat caactatttt gttggaggtg 1620
aactagttac aattgcccat ttggatcggc ctttgtatgt cttaggatat gtgcccaaag 1680
atgatagatt atacctggta gataaagagt tgcgcgtagt aagctaccaa ttacttctct 1740
ctgttcttga atatcaaacc gctgtcatga gaagagactt tccaacagca gatagagtac 1800
ttccgtctat tcctaaggag cacagaacga gagtcgcaca tttcttagaa aagcaaggct 1860
tcaaacaaca agctttggcc gtaagtacag atccagagca cagattcgag ctggcagtag 1920
cattagagga tcttaacaca gccaagattc tagctcaaga agcaaacagt ccgcaaaagt 1980
ggaatcaact agcagaattg gctgccgcta ctaataacgt aagcctagcc aaggaatgta 2040
tgcagaaagc gcaagattat ggcggcttat tacttcttgc tacaagttcc ggggatgaaa 2100
gtttagtccg tactctagga gaaacgacac aagcagaaag caaacataac ttagcatttt 2160
tgtcacactt gttagtaggt gatttaaaca aatgcctaga cattcttatt aataccggta 2220
gattaccaga agctgcattt ttcgccagat cttatcttcc tgataagata acggaagtgg 2280
tagaactttg gaagactcag ttatcttcag tcaatcaaaa agccggacag agccttgccg 2340
atccgaaaaa ttacgaaaat ctgttccctg gtttacaaga ggcagtggta gctcagaaat 2400
ttttggaaca gcagaataaa ggtttagcac ccgcgcgaat tgccaccacc attcctccta 2460
atcatgacag gaatgttgta gccgaagttc aagcacaatc gaaacatgat ggaccatcat 2520
ttagttcgag gagtatttca tcagaaatag aagcacaaac aaggagttct gctaaacctg 2580
aagaatcttc aaacattata cagctggatc aagatgacga cgatatcgat ttagatttgg 2640
acggtgtaaa tatcgatgag aacattgac 2669
<210>877
<211>2701
<212>DNA
<213>Diabrotica undecimpunctata howardii
<400>877
atgccacttc gattagatat aaaaagaaag ctaacagctc gctcagaccg ggtaaaatgt 60
gtggatcttc accctacaga accttggatg ctatgttctc tttacagtgg aaatatcaac 120
gtttggaata ccgaaaatca acaactggtt aaaacttttg aagtatgtga tgtacctgta 180
cggacagcta agtttttgcc caggaagaac tggatagtca gtggatctga tgatatgcag 240
attcgagttt tcaattacaa taccttagat cgggtacatt cttttgaagc tcattcagat 300
tatgtgagat gtattgtcgt acatcctaca caaccttata tattaacaag tagtgatgat 360
atgcttatca agctttggaa ttgggaaaaa gcatgggctt gtcagcaagt ttttgaagga 420
cacactcatt atattatgca aatcgccata aatccgaaag acaacaacac atttgccagt 480
gcatctttag atagaacatt gaaagtatgg cagttgggag catcaacagc taatttcaca 540
ctagaaggtc acgagaaagg tgttaactgt gtggattatt atcatggtgg agacaagcct 600
tatttaatct caggtgctga tgatagatta gtaaaaatct gggattatca aaataaaact 660
tgtgttcaaa ctttggaagg acatgctcaa aatgtaacag ctgcatgttt ccatccggaa 720
cttcctgtag cccttactgg aagtgaggat ggcactgtca gagtgtggca tgccaacact 780
catagattag agagtagctt aaattatggt tttgaaagag tatggaccat tttctgccta 840
aagggatcaa ataatgtggc attgggttat gatgaaggta gcattttggt taaagttggt 900
agagaagaac cagctgttag tatggatgcc agtggaggta aaattatttg ggctagacac 960
tctgaacttc aacaggcaaa tctcaaggca ttagctgaag gtgcagaaat aagagatgga 1020
gaacgccttc cagtttctgt aaaagatatg ggagcttgcg agatataccc tcagacaatt 1080
caacacaatc ctaacggccg ttttgtcgtt gtctgtggag atggagaata cataatctac 1140
acagcaatgg ctttaagaaa caaagcgttt ggtagtgcac aagaatttgt gtgggctcaa 1200
gattccagcg aatatgctat cagagaatcc ggatctacta tcagaatttt taagaatttc 1260
aaagagaaga agaatttcaa gtccgacttt ggagctgaag gtatatatgg tggttacctt 1320
ttgggagtca aatctgtttc tggtttgact ttctatgatt gggaaactct cgatttggta 1380
agaagaatcg agatacaacc aaaagcagtt tactggtccg atagtggcaa actagtatgt 1440
ttggctacag aagacagcta ctttattctt tcttatgatt ccgatgaagt tcaaaaagcc 1500
agagataaca atcaggttgc tgatgatgga gtagaatcgg ctttcaatct tctaggtgaa 1560
ataaacgaat cagttcgaac tggtctgtgg gtaggcgact gttttatcta cacgaattct 1620
gttaatcgta tcaactattt tgttggaggt gaactagtta caattgccca tttggatcgg 1680
cctttgtatg tcttaggata tgtgcctaaa gatgatagat tatacctggt agataaagag 1740
ttgcgcgtag taagctacca attactcctc tctgttcttg aatatcaaac tgccgtcatg 1800
agaagagact ttccaacagc agatagagta cttccgtcta ttcctaagga gcacagaacg 1860
agagtcgcac atttcttaga aaagcaaggc ttcaaacagc aagctttggc cgtaagtaca 1920
gatccagagc acagattcga gttggcagta gcattagagg atcttaacac agccaagatt 1980
ctagctcaag aagcaaacag tccgcaaaag tggaatcaac tagcagaatt ggctgccgct 2040
actaataacg taagcctagc caaggaatgt atgcagaaag cgcaagatta tggtggctta 2100
ttgcttcttg ctacgagttc cggagatgaa agtttagtcc gtactctagg agaaacgaca 2160
caagcagaaa gcaaacataa cttagcattt ttgtcacact tgttagtagg tgatttaaac 2220
aaatgtctag acatccttat taataccggt agattgccag aagctgcatt tttcgccaga 2280
tcttatcttc ctgataagat aacggaagtc gtagaacttt ggaagactca gttatcttca 2340
gtcaatcaaa aagctggaca gagccttgcc gatccgaaaa attacgaaaa tctgttccct 2400
ggtttacaag aggcagtggt agcccagaaa tttttggaac agcagaataa aggtttagca 2460
cccgcgcgaa ttgccaccac tattcctcct aatcacgaca ggaatgttgt agccgaagtt 2520
caagcacaat cgaaacatga tggaccatca tttagttcga ggagtctttc atcagaaata 2580
gaagcacaaa caaggagttc tgctaaacct gaagaatctt caaacattat ccagttggat 2640
caagatgatg acgatatcga tttagatttg gacggtgtaa atatcgatga gaacattgac 2700
c 2701
<210>878
<211>2714
<212>DNA
<213>Diabrotica virgifera zeae
<400>878
atgccacttc gattagatat aaaaagaaag ctaacagctc gctcagaccg ggtaaaatgt 60
gtggatcttc accctacaga accttggatg ctatgttctc tttacagcgg aaatataaac 120
gtttggaaca ccgaaaatca gcaactggtt aagacttttg aagtatgtga tgtacctgtt 180
cggacagcta agtttttgcc caggaagaac tggatagtca gtgggtctga tgatatgcag 240
attcgagttt tcaattacaa taccttagat cgggtacatt cttttgaggc tcattcggat 300
tatgtgagat gtattgtcgt acaccctaca caaccttata tattaacaag tagtgatgat 360
atgcttatca agctttggaa ttgggaaaaa gcatgggctt gtcagcaagt tttcgaagga 420
cacactcatt atattatgca aattgccata aatccaaaag acaacaacac atttgccagt 480
gcatccctag atagaacatt gaaagtatgg caattgggag cgtccacagc gaatttcaca 540
ctagaaggtc atgagaaagg cgttaactgt gtggactatt atcacggtgg agataaacct 600
tatttaatct caggcgctga tgatagatta gtaaaaatct gggattatca aaacaaaact 660
tgtgttcaaa ctttggaagg acatgctcaa aatgtaaccg ctgcatgttt ccatccagaa 720
cttcctgtag ctcttactgg aagtgaagat ggtactgtca gagtgtggca tgccaacacc 780
cataggttag aaagtagctt aaattatggc tttgaaagag tatggactat tttctgccta 840
aagggatcca ataacgtggc attgggttat gatgaaggta gcattttggt taaagttggt 900
agagaagaac cagctgttag tatggatgcc agtggaggca aaattatttg ggccagacac 960
tctgaacttc aacaggcaaa tctcaaggcg ttagctgaag gtgcggaaat aagagatgga 1020
gaacgccttc cagtttctgt aaaagatatg ggtgcttgcg agatataccc tcagacaatt 1080
caacacaatc ccaatggccg ttttgttgtt gtctgtgggg atggagaata cataatctac 1140
acagcaatgg ctttaagaaa caaagcgttt ggtagcgcac aagaatttgt gtgggctcaa 1200
gattccagcg aatatgccat cagagaatcc ggatctacta tcagaatttt taagaatttc 1260
aaagagaaga agaattttaa gcccgatttt ggagctgaag gtatatatgg tggatacctt 1320
ttgggagtca aatcggtttc tggtttgact ttctatgatt gggaaactct tgatttagtc 1380
agaagaatcg agatacaacc aaaagcagtt tactggtcag atagtggtaa attagtatgt 1440
ttggccacag aagatagcta ctttattctt tcttatgatt ctgatgaagt tcaaaaagcc 1500
agagataaca atcaggttgc ggatgatgga gtagaatcgg ctttcaatct tctaggtgaa 1560
ataaacgaat cagtgcgaac tggtctctgg gtaggcgact gttttatcta cacgaattct 1620
gttaatcgta tcaactactt cgttggaggt gaactggtta caattgctca tttggaccgg 1680
cctttgtatg tcttgggata tgtgcctaaa gacgatagat tatacctcgt agataaagag 1740
ttgcgcgtag taagctacca attacttctt tctgttcttg aatatcaaac tgccgtcatg 1800
agaagagact ttccaacagc agacagagta cttccgtcca ttcctaagga gcacagaacg 1860
agagtggcac atttcttaga aaagcaaggc ttcaaacagc aagctttggc cgtaagtaca 1920
gatccagagc acagattcga gctggcagta gcattagagg atcttaatat agccaaaact 1980
ctagctcaag aagcgaacag tccgcaaaag tggaatcaac tagcagaatt ggcagctgct 2040
actaataatg taagcttagc caaggaatgt atgcaaaaag cgcaagatta tggaggcttg 2100
ttgcttcttg ctacgagctc cggtgatgaa aatttagtcc gtgctctagg agaaacgaca 2160
caagctgaaa gcaaacataa cttagcattt ttgtcacact tgttagtagg tgatttaaac 2220
aaatgtctag acattcttat taataccggt agattgccag aagctgcatt tttcgccaga 2280
tcttaccttc ctgataagat tacagaagtc gtggaactgt ggaagactca gttatcttca 2340
gtcaatcaaa aagctggaca gagccttgcc gatcctaaaa actacgaaaa tctgttccct 2400
ggtttacaag aggcggtggt agctcagaaa tttttggaac agcagaataa aggtttagcg 2460
cccgcaagag ttgccaccac cattcctcct aatcacgaca ggaatgttgt agccgaagtt 2520
caagcacaat cgaaacacga tgtaccatca tttagttctt cgtttatttc atcagaaata 2580
gaagcacaaa caaggagttc tgctaaacct gaagaatctt caaacattat acagctggac 2640
caagatgacg acgatatcga tttagatttg gacggtgtaa atatcgatga gaacattgac 2700
acgacggata tcaa 2714
<210>879
<211>2714
<212>DNA
<213>Diabrotica virgifera virgifera
<400>879
atgccacttc gattagatat aaaaagaaag ctaacagctc gctcagaccg ggtaaaatgt 60
gtggatcttc accctacaga accttggatg ctgtgttctc tttacagcgg aaatataaac 120
gtttggaaca ccgaaaatca gcaactggtt aagacttttg aagtatgtga tgtacctgtt 180
cggacagcta agtttttgcc caggaagaac tggatagtca gtgggtctga tgatatgcag 240
attcgagttt tcaattacaa taccttagat cgggtacatt cttttgaggc tcattcggat 300
tatgtgagat gtattgtcgt acaccctaca caaccttata tattaacaag tagtgatgat 360
atgcttatca agctttggaa ttgggaaaaa gcatgggctt gtcagcaagt tttcgaagga 420
cacactcatt atattatgca aatcgccata aatccaaaag acaacaacac atttgccagt 480
gcatccctag atagaacatt gaaagtatgg caattgggag cgtccacagc gaatttcaca 540
ctagaaggtc atgagaaagg cgttaactgt gtggactatt atcacggtgg agataaacct 600
tatttaatct caggcgctga tgatagatta gtaaaaatct gggattatca aaacaaaact 660
tgtgttcaaa ctttggaagg acatgctcaa aatgtaaccg ctgcatgttt ccatccagaa 720
cttcctgtag ctcttactgg aagtgaagat ggtactgtca gagtgtggca tgccaacacc 780
cataggttag aaagtagctt aaattatggc tttgaaagag tatggactat tttctgccta 840
aagggatcca ataacgtggc attgggttat gatgaaggta gcattttggt taaagttggt 900
agagaagaac cagctgttag tatggatgcc agtggaggca aaattatttg ggccagacac 960
tctgaacttc aacaggcaaa tctcaaggcg ttagctgaag gtgcggaaat aagagatgga 1020
gaacgccttc cagtttctgt aaaagatatg ggtgcttgcg agatataccc tcagacaatt 1080
caacacaatc ccaatggccg ttttgttgtt gtctgtgggg atggagaata cataatctac 1140
acagcaatgg ctttaagaaa caaagcgttt ggtagcgcac aagaatttgt gtgggctcaa 1200
gattccagcg aatatgccat cagagaatcc ggatctacta tcagaatttt taagaatttc 1260
aaagagaaga agaattttaa gtccgatttt ggagctgaag gtatatacgg tggatacctt 1320
ttgggagtca aatcggtttc tggtttgact ttctatgatt gggaaactct cgatttagtc 1380
agaagaatcg agatacaacc aaaagcagtt tactggtcag atagtggtaa attagtatgt 1440
ttggccacag aagatagcta ctttattctt tcttatgatt ctgatgaagt tcaaaaagcc 1500
agagataaca atcaggttgc ggatgatgga gtagaatcgg ctttcaatct tctaggtgaa 1560
ataaacgaat cagtgcgaac tggtctctgg gtaggcgact gttttatcta cacgaattct 1620
gttaatcgta tcaactactt cgttggaggt gaactggtta caattgctca tttggaccgg 1680
cctttgtatg tcttgggata tgtgcctaaa gacgatagat tatacctcgt agataaagag 1740
ttgcgcgtag taagctacca attacttctt tctgttcttg aatatcaaac tgccgtcatg 1800
agaagagact ttccaacagc agacagagta cttccgtcca ttcctaagga gcacagaacg 1860
agagtggcac atttcttaga aaagcaaggc ttcaaacagc aagctttggc cgtaagtaca 1920
gatccagagc acagattcga gctggcagta gcattagagg atcttaatat agccaaaact 1980
ctagctcaag aagcgaacag tccgcaaaag tggaatcaac tagcagaatt ggcagctgct 2040
actaataatg taagcgtagc caaggaatgt atgcaaaaag cgcaagatta tggaggcttg 2100
ttgcttcttg ctacgagctc cggtgatgaa aatttagtcc gtactctagg agaaacgaca 2160
caagctgaaa gcaaacataa cttagcattt ttgtcacact tgttagtagg tgatttaaac 2220
aaatgtctag acattcttat taataccggt agattgccag aagctgcatt tttcgccaga 2280
tcttaccttc ctgataagat tacagaagtc gtggaactgt ggaagactca gttatcttca 2340
gtcaatcaaa aagctggaca gagccttgcc gatcctaaaa actacgaaaa tctgttccct 2400
ggtttacaag aggcggtggt agctcagaaa tttttggaac agcagaataa aggtttagcg 2460
cccgcaagag ttgccaccac cattcctcct aatcacgaca ggaatgttgt agccgaagtt 2520
caagcacaat cgaaacacga tgtaccatca tttagttctt cgtttatttc atcagaaata 2580
gaagcacaaa caaggagttc tgctaaacct gaagaatctt caaacattat acagctggac 2640
caagatgacg acgatatcga tttagatttg gacggtgtaa atatcgatga gaacattgac 2700
acgacggata tcaa 2714
<210>880
<211>669
<212>DNA
<213>Epilachna varivestis
<400>880
cgagggccac acccaytatg ttatgcaaat tgccataaat cctaaggata ataatacttt 60
tgctagtgca tcattagata gaacactcaa agtttggcag ttaggtgctt ccacagcaaa 120
ttttacttta gaaggtcacg ataaaggagt aaactgcgtt gattattatc atggtggaga 180
taaaccttat cttatatctg gagctgatga tcgattggta aaaatatggg attatcaaaa 240
caagacatgt gttcaaactt tagaaggtca tgcccaaaat gtaactgcag tttgcttcca 300
tccagaattg ccagtagttt taacaggtag tgaagatgga actgttagga tttggcatgc 360
caatactcat aggctggaaa gcagtttgaa ttatggattc gagagagtat gggccatttc 420
ttgcttaaag gggtccaaca atgtggttct gggttatgat gaaggtagtg tcctagttaa 480
agttggtcgt gaagaaccag ctgtcagtat ggatgctagt ggtggaaaaa ttatttgggc 540
ccgccattcc gaattgcaac aggctaattt gaaggcgctt cctgaagggg cggaggttag 600
agatggcgaa cgtttacctg ttgctgttaa agacatgggc gcttgygaaa tttaccccca 660
gaccatcgc 669
<210>881
<211>1033
<212>DNA
<213>Leptinotarsa decemlineata
<400>881
ccatggtggc gataaaccat acttgatatc gggagcagac gatcggttgg ttaaaatctg 60
ggactatcaa aacaaaacgt gtgtccaaac cttggaagga cacgcccaaa acgtaaccgc 120
ggtttgtttc caccctgaac tacctgtggc tctcacaggc agcgaagatg gtaccgttag 180
agtttggcat acgaatacac acagattaga gaattgtttg aattatgggt tcgagagagt 240
gtggaccatt tgttgcttga agggttcgaa taatgtttct ctggggtatg acgagggcag 300
tatattagtg aaagttggaa gagaagaacc ggcagttagt atggatgcca gtggcggtaa 360
aataatttgg gcaaggcact cggaattaca acaagctaat ttgaaggcgc tgccagaagg 420
tggagaaata agagatgggg agcgtttacc tgtctctgta aaagatatgg gagcatgtga 480
aatataccct caaacaatcc aacataatcc gaatggaaga ttcgttgtag tatgcggaga 540
cggcgaatat atcatttaca cagcgatggc tctacggaac aaggcttttg gaagcgctca 600
agagtttgtc tgggctcagg actccagcga gtatgccatt cgcgagtctg gttccacaat 660
tcggatattc aaaaacttca aagaaaggaa gaacttcaag tcggatttca gcgcggaagg 720
aatctacggg ggttttctct tggggattaa atcggtgtcc ggtttaacgt tttacgattg 780
ggaaactttg gacttggtga gacggattga aatacaaccg agggcggttt attggtctga 840
cagtggaaaa ttagtctgtc tcgcaacgga ggacagctac ttcatccttt cttatgattc 900
ggagcaagtt cagaaggcca gggagaacaa tcaagtcgca gaggatggcg tagaggccgc 960
tttcgatgtg ttgggggaaa tgaacgagtc tgtccgaaca ggtctttggg tcggagactg 1020
tttcatctat acc 1033
<210>882
<211>601
<212>DNA
<213>Diabrotica balteata
<400>882
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaatata ccttagtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gctctcaaaa agaagaaacg attggaaaag acccaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaacttgaa tgtggatgat gttcacgaca tcatggatga catagccgaa caacacgaca 360
tagccaacga aatcacaaac gctattagca accctgttgg attcaccgac gatctggacg 420
acgatgaatt agagaaagaa ttagaagagc tcgaacaaga aggattggaa gaagacctgc 480
ttcaagtgcc aggtcccact caactgccgg ctgtgcctac tgatgcagtt gctaataaac 540
caatcaaacc agcagctaga aaagttgaag atgatgacga tatgaaagaa ttggaagcct 600
g 601
<210>883
<211>601
<212>DNA
<213>Diabrotica barberi
<400>883
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaattta ccatggtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gccctcaaaa agaagaaacg attggaaaag actcaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaatttgaa tgtagatgat gttcacgata tcatggatga catagccgaa caacacgaca 360
tagccaacga aattacaaat gctattagca accctgttgg attcaccgac gatctggacg 420
acgatgaatt agaaaaagaa ttagaagagc tcgaacaaga aggattggaa gaagacctgc 480
tccaagtgcc aggtccaact caactgccgg ctgtgcctgc tgatgcagtt actactaaac 540
caatcaaacc agcagctaaa aaagttgaag atgatgacga tatgaaagaa ttggaagcct 600
g 601
<210>884
<211>601
<212>DNA
<213>Diabrotica undecimpunctata howardii
<400>884
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaattta ccttagtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gccctcaaaa agaagaaacg attggaaaag acccaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaacttgaa tgtggatgat gttcacgaca tcatggatga catagccgaa caacacgaca 360
tagccaacga aatcacaaac gctattagca atcctgttgg attcaccgac gatctggacg 420
atgatgaatt agagaaagaa ttagaagagc tcgaacaaga aggattggaa gaagacctgc 480
ttcaagtgcc aggtccaact caactgccgg ctgtgcctac tgatgcagtt gctaataaac 540
caattaaacc agcagctaga aaagttgaag atgatgacga tatgaaagaa ttggaagcct 600
g 601
<210>885
<211>601
<212>DNA
<213>Diabrotica virgi fera zeae
<400>885
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaattta ccatggtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gccctcaaaa agaagaaacg attggaaaag acccaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaatttgaa tgtagatgat gttcacgata tcatggatga catagccgaa caacacgaca 360
tagccaacga aatcacaaac gctattagca atcctgtcgg attcaccgac gatctggatg 420
acgatgaatt agaaaaagaa ttagaagagc tcgaacaaga aggattggaa gaagacctgc 480
tccaagtgcc aggtccaact caactgccgg ctgtgcctgc tgatgcagtt gctactaaac 540
caatcaaacc agcagctaaa aaagttgaag atgatgacga tatgaaagaa ttggaagcct 600
g 601
<210>886
<211>601
<212>DNA
<213>Diabrotica virgifera virgifera
<400>886
gtcctgggga ggctattcaa aaactcagag agactgaaga aatgttaata aaaaaacagg 60
attttttaga aaagaagata gaagaattta ccatggtagc aaagaaaaat gcgtcgaaaa 120
ataaaagagt tgcactccaa gccctcaaaa agaagaaacg attggaaaag acccaactac 180
aaatagatgg aacccttaca actattgaaa tgcagaggga agccctcgaa ggagctagca 240
caaatactgc tgtattagat tctatgaaaa atgctgcaga tgcccttaag aaagctcata 300
agaatttgaa tgtagatgat gttcacgata tcatggatga catagccgaa caacacgaca 360
tagccaacga aatcacaaac gctattagca atcctgtcgg attcaccgac gatctggatg 420
acgatgaatt agaaaaagaa ttagaagagc tcgaacaaga aggattggaa gaagacctgc 480
tccaagtgcc aggtccaact caactgccgg ctgtgcctgc tgatgcagtt gctactaaac 540
caatcaaacc agcagctaaa aaagttgaag atgatgacga tatgaaagaa ttggaagcct 600
g 601
<210>887
<211>145
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.1 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv13 order is formed
<400>887
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catac 145
<210>888
<211>222
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.2 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of 23-Dv13-Dv26 order is formed
<400>888
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct 180
gaagcaacat ataaggggta tcaacaatac tagagagttg ag 222
<210>889
<211>275
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.3 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv13-Dv26-Dv18 order is formed
<400>889
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct 180
gaagcaacat ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca 240
cattgtcctt ggatgtagta tccatcacgc agacc 275
<210>890
<211>338
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.4 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv13-Dv26-Dv18-Dv49 order is formed
<400>890
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct 180
gaagcaacat ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca 240
cattgtcctt ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg 300
aaatcacaaa cgctattagc aatcctgtcg gattcacc 338
<210>891
<211>418
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.5 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv23-Dv1 3-Dv26-Dv18-Dv49-Dv22 order is formed
<400>891
cctcaagctg tcattggcat ggatattctg tgccaagcta aatccggtat gggaaaaacg 60
gctgtttttg caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc 120
aaatttcttc ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct 180
gaagcaacat ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca 240
cattgtcctt ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg 300
aaatcacaaa cgctattagc aatcctgtcg gattcaccgt aatgcactcc tacgtcgttt 360
ggttcgtatt ggagtactag acgagaacag aatgaagctc gattacgtat tgggtctc 418
<210>892
<211>152
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.6 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv26 order is formed
<400>892
caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc aaatttcttc 60
ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct gaagcaacat 120
ataaggggta tcaacaatac tagagagttg ag 152
<210>893
<211>205
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.7 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv26-Dv18 order is formed
<400>893
caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc aaatttcttc 60
ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct gaagcaacat 120
ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca cattgtcctt 180
ggatgtagta tccatcacgc agacc 205
<210>894
<211>268
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.8 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv26-Dv18-Dv49 order is formed
<400>894
caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc aaatttcttc 60
ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct gaagcaacat 120
ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca cattgtcctt 180
ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg aaatcacaaa 240
cgctattagc aatcctgtcg gattcacc 268
<210>895
<211>348
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.9 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv26-Dv18-Dv49-Dv22 order is formed
<400>895
caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc aaatttcttc 60
ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct gaagcaacat 120
ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca cattgtcctt 180
ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg aaatcacaaa 240
cgctattagc aatcctgtcg gattcaccgt aatgcactcc tacgtcgttt ggttcgtatt 300
ggagtactag acgagaacag aatgaagctc gattacgtat tgggtctc 348
<210>896
<211>408
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.10 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv13-Dv26-Dv18-Dv49-Dv22-Dv20 order is formed
<400>896
caaaggatcc aggatgacgt tccctattga taactgtacc tacacgaccc aaatttcttc 60
ctccagtgat catacccata cgatttacct gaggaaatgc cggataatct gaagcaacat 120
ataaggggta tcaacaatac tagagagttg agtcaaacat aattatggca cattgtcctt 180
ggatgtagta tccatcacgc agaccgccga acaacacgac atagccaacg aaatcacaaa 240
cgctattagc aatcctgtcg gattcaccgt aatgcactcc tacgtcgttt ggttcgtatt 300
ggagtactag acgagaacag aatgaagctc gattacgtat tgggtctccg aagtaatgta 360
caacggccac actggacgta agataaatgc tcagattttc ttaggacc 408
<210>897
<211>130
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.11 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv18 order is formed
<400>897
ccatacgatt tacctgagga aatgccggat aatctgaagc aacatataag gggtatcaac 60
aatactagag agttgagtca aacataatta tggcacattg tccttggatg tagtatccat 120
cacgcagacc 130
<210>898
<211>193
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.12 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv18-Dv49 order is formed
<400>898
ccatacgatt tacctgagga aatgccggat aatctgaagc aacatataag gggtatcaac 60
aatactagag agttgagtca aacataatta tggcacattg tccttggatg tagtatccat 120
cacgcagacc gccgaacaac acgacatagc caacgaaatc acaaacgcta ttagcaatcc 180
tgtcggattc acc 193
<210>899
<211>273
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.13 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv18-Dv49-Dv22 order is formed
<400>899
ccatacgatt tacctgagga aatgccggat aatctgaagc aacatataag gggtatcaac 60
aatactagag agttgagtca aacataatta tggcacattg tccttggatg tagtatccat 120
cacgcagacc gccgaacaac acgacatagc caacgaaatc acaaacgcta ttagcaatcc 180
tgtcggattc accgtaatgc actcctacgt cgtttggttc gtattggagt actagacgag 240
aacagaatga agctcgatta cgtattgggt ctc 273
<210>900
<211>333
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.14 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv26-Dv18-Dv49-Dv22-Dv20 order is formed
<400>900
ccatacgatt tacctgagga aatgccggat aatctgaagc aacatataag gggtatcaac 60
aatactagag agttgagtca aacataatta tggcacattg tccttggatg tagtatccat 120
cacgcagacc gccgaacaac acgacatagc caacgaaatc acaaacgcta ttagcaatcc 180
tgtcggattc accgtaatgc actcctacgt cgtttggttc gtattggagt actagacgag 240
aacagaatga agctcgatta cgtattgggt ctccgaagta atgtacaacg gccacactgg 300
acgtaagata aatgctcaga ttttcttagg acc 333
<210>901
<211>116
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.15 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv18-Dv49 order is formed
<400>901
tcaaacataa ttatggcaca ttgtccttgg atgtagtatc catcacgcag accgccgaac 60
aacacgacat agccaacgaa atcacaaacg ctattagcaa tcctgtcgga ttcacc 116
<210>902
<211>196
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.16 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv18-Dv49-Dv22 order is formed
<400>902
tcaaacataa ttatggcaca ttgtccttgg atgtagtatc catcacgcag accgccgaac 60
aacacgacat agccaacgaa atcacaaacg ctattagcaa tcctgtcgga ttcaccgtaa 120
tgcactccta cgtcgtttgg ttcgtattgg agtactagac gagaacagaa tgaagctcga 180
ttacgtattg ggtctc 196
<210> 903
<211>256
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.17 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv18-Dv49-Dv22-Dv20 order is formed
<400>903
tcaaacataa ttatggcaca ttgtccttgg atgtagtatc catcacgcag accgccgaac 60
aacacgacat agccaacgaa atcacaaacg ctattagcaa tcctgtcgga ttcaccgtaa 120
tgcactccta cgtcgtttgg ttcgtattgg agtactagac gagaacagaa tgaagctcga 180
ttacgtattg ggtctccgaa gtaatgtaca acggccacac tggacgtaag ataaatgctc 240
agattttctt aggacc 256
<210>904
<211>143
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.18 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv22 order is formed
<400>904
gccgaacaac acgacatagc caacgaaatc acaaacgcta ttagcaatcc tgtcggattc 60
accgtaatgc actcctacgt cgtttggttc gtattggagt actagacgag aacagaatga 120
agctcgatta cgtattgggt ctc 143
<210>905
<211>203
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.19 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv49-Dv22-Dv20 order is formed
<400>905
gccgaacaac acgacatagc caacgaaatc acaaacgcta ttagcaatcc tgtcggattc 60
accgtaatgc actcctacgt cgtttggttc gtattggagt actagacgag aacagaatga 120
agctcgatta cgtattgggt ctccgaagta atgtacaacg gccacactgg acgtaagata 180
aatgctcaga ttttcttagg acc 203
<210>906
<211>140
<212>DNA
<213〉artificial sequence
<220>
<223〉artificial sequence note: the C12.20 concatermer of highly effective WCR target, about 50%GC standard is by 5 '-3 '
For the fragment of Dv22-Dv20 order is formed
<400>906
gtaatgcact cctacgtcgt ttggttcgta ttggagtact agacgagaac agaatgaagc 60
tcgattacgt attgggtctc cgaagtaatg tacaacggcc acactggacg taagataaat 120
gctcagattt tcttaggacc 140

Claims (34)

1. isolating polynucleotide are selected from down group:
(a) comprise the polynucleotide of the nucleotide sequence of SEQ ID NO:1-SEQ ID NO:906;
(b) at 5X SSC, under 50% methane amide and 42 ℃ of following 10 minutes the wash conditions with the polynucleotide of the nucleic acid array hybridizing of SEQ IDNO:1-SEQ ID NO:906;
(c) comprise polynucleotide with at least 70% sequence identity of the nucleotide sequence of SEQ ID NO:1-SEQ ID NO:906;
(d) fragment of at least 21 adjacent nucleotides of the nucleotide sequence of SEQ ID NO:1-SEQ ID NO:906, wherein the Coleoptera plant insect is taken in the double-stranded ribonucleoside acid sequence comprise with at least one chain of described fragment complementation, suppresses the growth of described insect; With
(e) complementary sequence of above-mentioned (a) and (b), (c) or sequence (d).
2. the isolating polynucleotide of claim 1 are selected from SEQ ID NO:697, SEQ IDNOs:813-819, SEQ ID NO:841 and SEQ ID NO:874.
3. the isolating polynucleotide of claim 1, it is operably connected with allogeneic promoter.
4. the isolating polynucleotide of claim 1, it is included on the plant conversion carrier.
5. the double-stranded ribonucleoside acid sequence that is produced by the expression of the polynucleotide of claim 1, wherein the Coleoptera plant insect is taken in described ribonucleoside acid sequence, suppresses the growth of described insect.
6. the double-stranded ribonucleoside acid sequence of claim 5, comprise first by preparation, the recombination of polynucleotide sequence of the second and the 3rd polynucleotide sequence produces, wherein said first polynucleotide sequence comprises the isolating polynucleotide of claim 1, wherein the 3rd polynucleotide sequence is connected with first polynucleotide sequence by second polynucleotide sequence, and wherein the 3rd polynucleotide sequence is the reverse complementary sequence of first polynucleotide sequence substantially, make when being transcribed into Yeast Nucleic Acid, the hybridization of the described first and the 3rd polynucleotide sequence forms the double-stranded ribonucleoside acid sequence by the second ribonucleotide sequence stabilization that connects.
7. the double-stranded ribonucleoside acid sequence of claim 5, wherein insect is taken in polynucleotide sequence, suppresses the expression with the basic complementary nucleotide sequence of described polynucleotide sequence.
8. use the polynucleotide cell transformed of claim 1.
9. the cell of claim 8, it is a prokaryotic cell prokaryocyte.
10. the cell of claim 8, it is an eukaryotic cell.
11. the cell of claim 8, it is plant or bacterial cell.
12. polynucleotide plant transformed with claim 1.
13. the seed of the plant of claim 12, wherein said seed comprises polynucleotide.
14. polynucleotide plant transformed with claim 2.
15. the plant of claim 12, wherein said polynucleotide are expressed as double-stranded ribonucleoside acid sequence in vegetable cell, and, take in the described double-stranded ribonucleoside acid sequence be present in the insect pest amount of suppression in the food, suppress the insect described food of further ingesting.
16. the plant of claim 15, wherein said insect pest are selected from Diabrotica virgifera, Diabrotica virgifera virgifera, Diabrotica virgifera zea, Diabroticabalteata, Diabrotica barberi, Diabrotica viridula, Diabrotica speciosa and Diabrotica undecimpunctata.
17. the plant of claim 15 is wherein taken in the double-stranded ribonucleoside acid sequence of insect pest amount of suppression, and the insect growth is stopped.
18. Accessory Right requires the agricultural-food goods of 12 plant production, but wherein said agricultural-food goods comprise detection limit claim 1 polynucleotide or by the ribonucleotide of its expression.
19. the method for control coleopteran pest invasion and attack, be included in the food of coleopteran pest a kind of reagent is provided, this reagent comprises first polynucleotide sequence, described polynucleotide sequence works after insect is taken in, suppress the biological function in the described insect, wherein said polynucleotide sequence is along the nucleotide sequence homology that has about 95%-about 100% at least about about 25 adjacent nucleotides of 19-and the encoding sequence that derives from described insect, and hybridize in the described first polynucleotide sequence complementary, second polynucleotide sequence, and the described encoding sequence that wherein derives from described insect is selected from SEQ ID NO:1-SEQ ID NO:906 and complementary sequence thereof.
20. the method for claim 19, wherein said coleopteran pest is chrysomelid species, is selected from Diabrotica virgifera, Diabrotica virgifera virgifera, Diabrotica virgiferazea, Diabrotica balteata, Diabrotica barberi, Diabrotica viridula, Diabrotica speciosa and Diabrotica undecimpunctata.
21. the method for control coleopteran pest invasion and attack, be included in the vegetable cell that the polynucleotide sequence of expressing claim 1 is provided in the food of coleopteran pest, wherein express described polynucleotide, produce double-stranded ribonucleotide, it works after insect is taken in, suppress target sequence and express in described insect, and cause with respect to the food that lacks described vegetable cell, insect is to the minimizing of ingesting of described food.
22. the growth after taking in cell of the method for claim 21, wherein said insect reduces.
23. the method for claim 21, wherein said vegetable cell further comprise the polynucleotide sequence that coding is selected from down the sterilant of group: potato tuber storage protein, bacillus thuringiensis insecticidal albumen, Xenorhabdus insecticidal protein, polished rod bacterium insecticidal protein, bacillus laterosporus insecticidal protein and Bacillus sphaericus insecticidal protein.
24. the method for claim 23, wherein said bacillus thuringiensis insecticidal albumen is selected from: the combination of Cry1, Cry3, TIC851, CryET70, Cry22, TIC901, TIC1201, TIC407, TIC417, binary insecticidal protein CryET33 and CryET34, binary insecticidal protein CryET80 and CryET76, binary insecticidal protein TIC100 and TIC101, insecticidal protein ET29 or ET37 and insecticidal protein TIC810 or TIC812, and binary insecticidal protein PS149B1.
25. the method for claim 21, wherein said target sequence proteins encoded, described proteic forecast function is selected from: muscle forms, the formation of neotonin, the adjusting of neotonin, ion is regulated and transhipment, digestive ferment is synthetic, cell membrane potential keeps, amino acid bio is synthetic, amino acid degradation, sperm forms, pheromone is synthetic, the pheromone sensing, feeler forms, wing forms, leg forms, grow and differentiation, avette one-tenth, the larva maturation, digestive ferment forms, hemolymph is synthetic, the maintenance of hemolymph, neurotransmission, cell fission, energy metabolism, breathe, and apoptosis.
26. the method for claim 21, wherein said coleopteran pest is chrysomelid species, is selected from Diabrotica virgifera, Diabrotica virgifera virgifera, Diabrotica virgiferazea, Diabrotica balteata, Diabrotica barberi, Diabrotica viridula, Diabrotica speciosa and Diabrotica undecimpunctata.
27. the method for claim 21, described polynucleotide worked after wherein insect was taken in, prevent and exercise the survive gene of necessary function of insect, described function is selected from: insect ingests, the insect apoptosis, cytodifferentiation and growth, sexual propagation ability or needs, muscle forms, muscle twitch, Muscle contraction, the formation of neotonin, the adjusting of neotonin, ion is regulated and transhipment, the maintenance of cell membrane potential, amino acid bio is synthetic, amino acid degradation, sperm forms, pheromone is synthetic, the pheromone sensing, feeler forms, wing forms, leg forms, avette one-tenth, the larva maturation, digestive ferment forms, hemolymph is synthetic, the maintenance of hemolymph, neurotransmission, larval stage changes, pupate, broken pupa, cell fission, energy metabolism, the formation of breathing and cytoskeletal structure.
28. the method for the crop yield that the crop plants of improvement insect pest invasion and attack produces said method comprising the steps of:
A) polynucleotide of claim 1 are introduced described crop plants,
B) cultivate described crop plants, described polynucleotide are expressed, the expression inhibiting insect pest of wherein said polynucleotide is ingested and because the production loss that the insect invasion and attack cause.
29. the method for claim 28, the expression of wherein said polynucleotide produces the RNA molecule, described RNA molecule is prevented first target gene in the insect pest of the part of taking in described crop plants at least, wherein said target gene is exercised at least a household function that is selected from down group: insect ingests, the insect viability, the insect apoptosis, the differentiation of insect or any insect cell and growth, the sexual propagation of insect, muscle forms, muscle twitch, Muscle contraction, the formation of neotonin and/or minimizing, the adjusting of neotonin, ion is regulated and transhipment, the maintenance of cell membrane potential, amino acid bio is synthetic, amino acid degradation, sperm forms, pheromone is synthetic, the pheromone sensing, feeler forms, wing forms, leg forms, avette one-tenth, the larva maturation, digestive ferment forms, hemolymph is synthetic, hemolymph keeps, neurotransmission, larval stage changes, pupate, broken pupa, cell fission, energy metabolism, breathe, synthetic and the maintenance of cytoskeletal structure, nucleotide metabolism, nitrogen metabolism, water conservancy is used, water keeps, and sensory perception.
30. the method for claim 28, wherein said insect pest are the corn rootworm insect that is selected from down group: Diabrotica undecimpunctata howardi (southern corn rootworm (SCR)), Diabrotica virgifera virgifera (western corn rootworm (WCR)), Diabrotica barberi (northern corn rootworm (NCR)), Diabrotica virgifera zea (zea mexicana rootworm (MCR)), Diabrotica balteata (Brazilian corn rootworm (BZR)), Diabrotica viridula (Brazilian corn rootworm (BZR)) and Diabrotica spectosa (Brazilian corn rootworm (BZR)).
31. improvement be said method comprising the steps of by the method for the drought tolerance of the farm crop of the crop plants generation of insect pest invasion and attack:
A) polynucleotide of claim 1 are introduced described crop plants,
B) cultivate described crop plants, described polynucleotide are expressed, the expression inhibiting insect pest of wherein said polynucleotide is ingested and because the drought tolerance reduction that the insect invasion and attack cause.
32. produce the method for agricultural-food goods, comprise the plant or its part that obtain claim 12, and prepare the agricultural-food goods from described plant or its part.
33. produce the method for food or feed, comprise the plant or its part that obtain claim 12, and prepare food or feed from described plant or its part.
34. the method for claim 33, wherein said food or feed are oil, meal, albumen, starch, fine powder or silage.
CNA2006800428817A 2005-09-16 2006-09-15 Methods for genetic control of insect infestations in plantsand compositions thereof Pending CN101310020A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US71803405P 2005-09-16 2005-09-16
US60/718,034 2005-09-16

Related Child Applications (1)

Application Number Title Priority Date Filing Date
CN2011101921306A Division CN102409050A (en) 2005-09-16 2006-09-15 Methods for genetic control of insect infestations in plants and compositions thereof

Publications (1)

Publication Number Publication Date
CN101310020A true CN101310020A (en) 2008-11-19

Family

ID=37497032

Family Applications (4)

Application Number Title Priority Date Filing Date
CNA2006800428817A Pending CN101310020A (en) 2005-09-16 2006-09-15 Methods for genetic control of insect infestations in plantsand compositions thereof
CN2011101921306A Pending CN102409050A (en) 2005-09-16 2006-09-15 Methods for genetic control of insect infestations in plants and compositions thereof
CNA2006800429275A Pending CN101365796A (en) 2005-09-16 2006-09-18 Methods for controlling pests using rnai
CNA2006800428215A Pending CN101365795A (en) 2005-09-16 2006-09-18 Dsrna used as pest control agent

Family Applications After (3)

Application Number Title Priority Date Filing Date
CN2011101921306A Pending CN102409050A (en) 2005-09-16 2006-09-15 Methods for genetic control of insect infestations in plants and compositions thereof
CNA2006800429275A Pending CN101365796A (en) 2005-09-16 2006-09-18 Methods for controlling pests using rnai
CNA2006800428215A Pending CN101365795A (en) 2005-09-16 2006-09-18 Dsrna used as pest control agent

Country Status (24)

Country Link
US (8) US7943819B2 (en)
EP (8) EP3508582B1 (en)
CN (4) CN101310020A (en)
AP (2) AP2008004416A0 (en)
AR (1) AR055169A1 (en)
AT (1) ATE548459T1 (en)
AU (1) AU2006292362B2 (en)
BR (1) BRPI0616181B1 (en)
CA (2) CA2812343C (en)
CR (1) CR9821A (en)
EC (1) ECSP088291A (en)
ES (1) ES2614943T3 (en)
HU (1) HUE031692T2 (en)
PL (1) PL2431473T3 (en)
PT (1) PT2431473T (en)
RU (1) RU2478710C2 (en)
SG (1) SG166097A1 (en)
SI (1) SI2431473T1 (en)
SV (1) SV2009002845A (en)
TW (1) TWI390037B (en)
UA (1) UA98445C2 (en)
UY (1) UY29800A1 (en)
WO (1) WO2007035650A2 (en)
ZA (1) ZA200803338B (en)

Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102439029A (en) * 2009-06-16 2012-05-02 陶氏益农公司 Dig-10 insecticidal cry toxins
CN103403163A (en) * 2010-12-30 2013-11-20 陶氏益农公司 Nucleic acid molecules that target the vacuolar atpase c subunit and confer resistance to coleopteran pests
CN105164265A (en) * 2013-03-15 2015-12-16 孟山都技术有限公司 Compositions and methods for the improved production and delivery of RNA by efficient transcription termination
CN106028838A (en) * 2013-12-20 2016-10-12 美国陶氏益农公司 Rnapii-140 nucleic acid molecules that confer resistance to coleopteran pests
CN106471123A (en) * 2014-05-06 2017-03-01 美国陶氏益农公司 Give the SEC23 nucleic acid molecules of coleoptera and Hemipteran pest resistance
CN106661590A (en) * 2014-05-07 2017-05-10 美国陶氏益农公司 DRE4 nucleic acid molecules that confer resistance to coleopteran pests
CN107532170A (en) * 2015-03-13 2018-01-02 美国陶氏益农公司 Control the nucleic acid molecules of rna plymerase ii 33 of insect pest
CN107937405A (en) * 2010-12-30 2018-04-20 陶氏益农公司 Target RHO1 little Bloch spaces and assign the nucleic acid molecules to the resistance of coleoptera harmful organism
CN109790544A (en) * 2016-08-05 2019-05-21 先正达参股股份有限公司 Coleoptera harmful organism is controlled using RNA molecule
CN110452908A (en) * 2011-04-20 2019-11-15 德福根有限公司 The down-regulation of gene expression in insect pest
CN110669760A (en) * 2018-06-15 2020-01-10 北京大北农生物技术有限公司 Nucleotide sequences and methods for controlling insect infestation
CN112391390A (en) * 2020-11-19 2021-02-23 山西大学 Migratory locust clathrin heavy chain gene and synthesis and application of targeting dsRNA thereof
CN112662689A (en) * 2020-12-31 2021-04-16 山西大学 Migratory locust Rab11A gene and application of dsRNA thereof in migratory locust control
CN112831506A (en) * 2019-11-22 2021-05-25 深圳大学 Phyllotreta striolata cytochrome P450 gene and application thereof
CN114009454A (en) * 2014-07-29 2022-02-08 孟山都技术公司 Compositions and methods for controlling insect pests
CN117343935A (en) * 2022-07-05 2024-01-05 宁波大学 Laodelphax striatellus lethal gene ubiquitin and application thereof in biological control

Families Citing this family (249)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB9827152D0 (en) 1998-07-03 1999-02-03 Devgen Nv Characterisation of gene function using double stranded rna inhibition
IT1304768B1 (en) * 1998-10-05 2001-03-29 Esaote Spa TABLE FOR PATIENT HOLDER OR SIMILAR, AND MACHINE, IN PARTICULAR MACHINE FOR DETECTION OF IMAGES IN NUCLEAR MAGNETIC RESONANCE IN
US7612194B2 (en) * 2001-07-24 2009-11-03 Monsanto Technology Llc Nucleic acid sequences from Diabrotica virgifera virgifera LeConte and uses thereof
PL1687435T3 (en) * 2003-11-17 2012-02-29 Bayer Cropscience Nv Insect resistance using inhibition of gene expression
US20160230185A1 (en) 2013-03-14 2016-08-11 Monsanto Technology Llc Compositions and methods for controlling diabrotica
CA2562022C (en) * 2004-04-09 2016-01-26 Monsanto Technology Llc Compositions and methods for control of insect infestations in plants
US8404927B2 (en) * 2004-12-21 2013-03-26 Monsanto Technology Llc Double-stranded RNA stabilized in planta
AU2006329563B2 (en) * 2005-09-16 2014-02-20 Devgen Nv dsRNA as insect control agent
PL2270182T3 (en) * 2005-09-16 2016-07-29 Devgen Nv DSRNA as insect control agent
EP3508582B1 (en) 2005-09-16 2021-01-13 Monsanto Technology LLC Methods for genetic control of insect infestations in plants and compositions thereof
EP2115141A4 (en) * 2007-02-20 2010-08-04 Monsanto Technology Llc Invertebrate micrornas
CA2685764A1 (en) 2007-05-09 2008-11-20 Devgen N.V. A method for sustainable transgene transcription
US8097712B2 (en) 2007-11-07 2012-01-17 Beelogics Inc. Compositions for conferring tolerance to viral disease in social insects, and the use thereof
ES2457218T3 (en) 2008-04-07 2014-04-25 Monsanto Technology Llc Regulatory elements of plants and their uses
US8003335B2 (en) 2008-04-30 2011-08-23 Universite Paris-SUD11 Levels of APRIL in serum and use in diagnostic methods
EP2350278A2 (en) * 2008-09-23 2011-08-03 Silence Therapeutics AG Means for inhibiting the expression of orc-1
ES2532145T3 (en) 2009-04-17 2015-03-24 Dow Agrosciences Llc Cry toxins insecticides DIG-3
EP3098317B1 (en) 2009-08-28 2018-08-22 E. I. du Pont de Nemours and Company Compositions and methods to control insect pests
US8962584B2 (en) 2009-10-14 2015-02-24 Yissum Research Development Company Of The Hebrew University Of Jerusalem, Ltd. Compositions for controlling Varroa mites in bees
ES2736037T3 (en) 2010-01-14 2019-12-23 Monsanto Technology Llc Regulatory elements of the plants and their uses
RS55986B1 (en) 2010-01-22 2017-09-29 Bayer Ip Gmbh Acaricides and/or insecticidal agent combinations
CN102960363B (en) * 2010-03-05 2015-08-19 广州市锐博生物科技有限公司 A kind of biopesticide and insect control method
US20130047297A1 (en) 2010-03-08 2013-02-21 Robert D. Sammons Polynucleotide molecules for gene regulation in plants
US9234208B1 (en) 2010-05-10 2016-01-12 Dow Agrosciences Llc DIG-13 insecticidal cry toxins
CA2796191A1 (en) 2010-06-03 2011-12-08 Bayer Cropscience Ag N-[(het)arylethyl)] pyrazole(thio)carboxamides and their heterosubstituted analogues
US8999956B2 (en) 2010-06-03 2015-04-07 Bayer Intellectual Property Gmbh N-[(het)arylalkyl)] pyrazole(thio)carboxamides and their heterosubstituted analogues
UA110703C2 (en) 2010-06-03 2016-02-10 Байєр Кропсайнс Аг Fungicidal n-[(trisubstitutedsilyl)methyl]carboxamide
US9574201B2 (en) 2010-06-09 2017-02-21 Bayer Cropscience Nv Methods and means to modify a plant genome at a nucleotide sequence commonly used in plant genome engineering
AU2011264074B2 (en) 2010-06-09 2015-01-22 Bayer Cropscience Nv Methods and means to modify a plant genome at a nucleotide sequence commonly used in plant genome engineering
CA2803083A1 (en) 2010-07-20 2012-01-26 Bayer Cropscience Ag Benzocycloalkenes as antifungal agents
CN102382876A (en) * 2010-08-30 2012-03-21 高希武 Method for detecting avermectin pesticide resistance produced by diamondback moth
WO2012038480A2 (en) 2010-09-22 2012-03-29 Bayer Cropscience Ag Use of biological or chemical control agents for controlling insects and nematodes in resistant crops
EP2460406A1 (en) 2010-12-01 2012-06-06 Bayer CropScience AG Use of fluopyram for controlling nematodes in nematode resistant crops
WO2012045798A1 (en) 2010-10-07 2012-04-12 Bayer Cropscience Ag Fungicide composition comprising a tetrazolyloxime derivative and a thiazolylpiperidine derivative
UA107865C2 (en) 2010-10-21 2015-02-25 Байєр Інтелекчуал Проперті Гмбх Heterocyclic carboxamides
CA2815114A1 (en) 2010-10-21 2012-04-26 Juergen Benting 1-(heterocyclic carbonyl) piperidines
MX345738B (en) 2010-10-27 2017-02-14 Devgen Nv Down-regulating gene expression in insect pests.
WO2012059497A1 (en) 2010-11-02 2012-05-10 Bayer Cropscience Ag N-hetarylmethyl pyrazolylcarboxamides
WO2012065947A1 (en) 2010-11-15 2012-05-24 Bayer Cropscience Ag 5-halogenopyrazolecarboxamides
BR112013012080A2 (en) 2010-11-15 2016-07-19 Bayer Ip Gmbh n-aryl pyrazole (thio) carboxamides
AR083874A1 (en) 2010-11-15 2013-03-27 Bayer Cropscience Ag 5-HALOGENOPIRAZOL (UNCLE) CARBOXAMIDS
EP2460407A1 (en) 2010-12-01 2012-06-06 Bayer CropScience AG Agent combinations comprising pyridylethyl benzamides and other agents
EP3372081A3 (en) 2010-12-01 2018-10-24 Bayer CropScience Aktiengesellschaft Use of fluopyram for controlling nematodes in crops
EP2474542A1 (en) 2010-12-29 2012-07-11 Bayer CropScience AG Fungicide hydroximoyl-tetrazole derivatives
US20130289077A1 (en) 2010-12-29 2013-10-31 Juergen Benting Fungicide hydroximoyl-tetrazole derivatives
BRPI1107329A2 (en) 2010-12-30 2019-11-19 Dow Agrosciences Llc nucleic acid molecules that target the vacuolar atpase h-subunit that confer resistance to Coleoptera pests, plant transformation vector, transformed cell, as well as methods for controlling a Coleoptera pest population, controlling an infestation by said pest, improving the yield of a crop and to produce a transgenic cell
CA2822958A1 (en) * 2010-12-30 2012-07-05 Dow Agrosciences Llc Nucleic acid molecules that confer resistance to coleopteran pests
CA2823999C (en) 2011-03-10 2020-03-24 Bayer Intellectual Property Gmbh Use of lipochito-oligosaccharide compounds for safeguarding seed safety of treated seeds
CA3004022C (en) 2011-03-25 2020-07-28 Monsanto Technology Llc Plant regulatory elements and uses thereof
US10155958B2 (en) 2011-03-31 2018-12-18 Shanghai Institutes For Biological Sciences, Cas Method for improving plant resistance to insects
WO2012135820A2 (en) * 2011-04-01 2012-10-04 Rutgers, The State University Of New Jersey Edible transgenic plants as oral delivery vehicles for rna-based therapeutics
DK2997825T3 (en) 2011-04-22 2019-03-11 Bayer Ip Gmbh COMPOSITIONS OF ACTIVE COMPOUNDS CONTAINING A (THIO) CARBOXAMIDE DERIVATIVE AND A FUNGICID COMPOUND
CN102220342B (en) * 2011-05-12 2012-11-14 南京农业大学 Laodelphax striatellus lethal gene fragment ADP-ribosylation factor based on gene-silencing technology and dsRNA thereof
KR102080055B1 (en) 2011-05-13 2020-02-24 몬산토 테크놀로지 엘엘씨 Plant regulatory elements and uses thereof
TR201802544T4 (en) 2011-06-06 2018-03-21 Bayer Cropscience Nv Methods and tools for modifying a plant genome in a preselected region.
EP3369822A1 (en) * 2011-07-18 2018-09-05 Devgen NV Downregulation of gene expression in plant pathogens
WO2013020985A1 (en) 2011-08-10 2013-02-14 Bayer Intellectual Property Gmbh Active compound combinations comprising specific tetramic acid derivatives
BR112014002988A2 (en) 2011-08-12 2017-03-01 Bayer Cropscience Nv specific expression of transgene protection cell in cotton
BR112014003919A2 (en) 2011-08-22 2017-03-14 Bayer Cropscience Ag methods and means for modifying a plant genome
JP2014524455A (en) 2011-08-22 2014-09-22 バイエル・インテレクチユアル・プロパテイー・ゲー・エム・ベー・ハー Fungicidal hydroxymoyl-tetrazole derivatives
EP2561759A1 (en) 2011-08-26 2013-02-27 Bayer Cropscience AG Fluoroalkyl-substituted 2-amidobenzimidazoles and their effect on plant growth
US10806146B2 (en) 2011-09-13 2020-10-20 Monsanto Technology Llc Methods and compositions for weed control
US10760086B2 (en) 2011-09-13 2020-09-01 Monsanto Technology Llc Methods and compositions for weed control
US10829828B2 (en) 2011-09-13 2020-11-10 Monsanto Technology Llc Methods and compositions for weed control
MX362812B (en) 2011-09-13 2019-02-13 Monsanto Technology Llc Methods and compositions for weed control.
US9840715B1 (en) 2011-09-13 2017-12-12 Monsanto Technology Llc Methods and compositions for delaying senescence and improving disease tolerance and yield in plants
UA115535C2 (en) 2011-09-13 2017-11-27 Монсанто Текнолоджи Ллс Methods and compositions for weed control
EP2755466A4 (en) 2011-09-13 2015-04-15 Monsanto Technology Llc Methods and compositions for weed control
WO2013040033A1 (en) 2011-09-13 2013-03-21 Monsanto Technology Llc Methods and compositions for weed control
US9920326B1 (en) 2011-09-14 2018-03-20 Monsanto Technology Llc Methods and compositions for increasing invertase activity in plants
CN103781352A (en) 2011-09-16 2014-05-07 拜耳知识产权有限责任公司 Use of phenylpyrazolin-3-carboxylates for improving plant yield
US20140378306A1 (en) 2011-09-16 2014-12-25 Bayer Intellectual Property Gmbh Use of 5-phenyl- or 5-benzyl-2 isoxazoline-3 carboxylates for improving plant yield
AR087874A1 (en) 2011-09-16 2014-04-23 Bayer Ip Gmbh USE OF ACILSULPHONAMIDES TO IMPROVE THE PERFORMANCE OF PLANTS
AU2012320554B2 (en) 2011-10-04 2017-11-09 Bayer Intellectual Property Gmbh RNAi for the control of fungi and oomycetes by inhibiting saccharopine dehydrogenase gene
UY34373A (en) * 2011-10-06 2013-05-31 Dow Agrosciences Llc NUCLEIC ACID MOLECULES THAT ADDRESS TO PP1-87B AND CONFERENCE RESISTANCE TO PATHOPHERAL PESTS.
WO2013052908A2 (en) * 2011-10-06 2013-04-11 Dow Agrosciences Llc Nucleic acid molecules that target rps6 and confer resistance to coleopteran pests
AR088262A1 (en) * 2011-10-06 2014-05-21 Dow Agrosciences Llc NUCLEIC ACID MOLECULES THAT ARE ADDRESSED TO RPA70 AND CONFERENCE TO RESISTANCE TO COLEOPTER PESTS
MX2014005976A (en) 2011-11-21 2014-08-27 Bayer Ip Gmbh Fungicide n-[(trisubstitutedsilyl)methyl]-carboxamide derivatives.
CN105906567B (en) 2011-11-30 2019-01-22 拜耳知识产权有限责任公司 Antifungal N- bicyclic alkyl and N- tricyclic alkyl (thio) carboxamide derivative
BR112014015002A2 (en) 2011-12-19 2017-06-13 Bayer Cropscience Ag use of anthranilic acid diamide derivatives for pest control in transgenic crops
KR102028903B1 (en) 2011-12-29 2019-10-07 바이엘 인텔렉쳐 프로퍼티 게엠베하 Fungicidal 3-[(pyridin-2-ylmethoxyimino)(phenyl)methyl]-2-substituted-1,2,4-oxadiazol-5(2h)-one derivatives
BR112014015993A8 (en) 2011-12-29 2017-07-04 Bayer Ip Gmbh compound, composition, method for fungal control, use of compounds and process for producing the compositions
EP2819518B1 (en) 2012-02-27 2017-09-06 Bayer Intellectual Property GmbH Active compound combinations containing a thiazoylisoxazoline and a fungicide
US9567381B2 (en) 2012-03-09 2017-02-14 Vestaron Corporation Toxic peptide production, peptide expression in plants and combinations of cysteine rich peptides
US11692016B2 (en) 2012-03-09 2023-07-04 Vestaron Corporation High gene expression yeast strain
WO2013139949A1 (en) 2012-03-23 2013-09-26 Bayer Intellectual Property Gmbh Compositions comprising a strigolactame compound for enhanced plant growth and yield
WO2013153143A1 (en) 2012-04-12 2013-10-17 Bayer Cropscience Ag N-acyl- 2 - (cyclo) alkylpyrrolidines and piperidines useful as fungicides
CN104428294B (en) 2012-04-20 2017-07-14 拜尔农科股份公司 N cycloalkyl N [(heterocyclyl phenyl) methylene] (thio) carboxamide derivative
US9663793B2 (en) 2012-04-20 2017-05-30 Monsanto Technology, Llc Plant regulatory elements and uses thereof
CN104395474A (en) 2012-04-20 2015-03-04 富优基尼以色列股份有限公司 Bronze bug control agents
US20150080337A1 (en) 2012-04-20 2015-03-19 Bayer Cropscience N-cycloalkyl-n-[(trisubstitutedsilylphenyl)methylene]-(thio)carboxamide derivatives
EP2841581B2 (en) 2012-04-23 2023-03-08 BASF Agricultural Solutions Seed US LLC Targeted genome engineering in plants
CN104508134A (en) * 2012-04-23 2015-04-08 富优基尼以色列股份有限公司 Glycaspis brimblecombei control agents
JP6315481B2 (en) 2012-05-08 2018-04-25 モンサント テクノロジー エルエルシー Corn event MON87411
EP2847170B1 (en) 2012-05-09 2017-11-08 Bayer CropScience AG Pyrazole indanyl carboxamides
EP2662361A1 (en) 2012-05-09 2013-11-13 Bayer CropScience AG Pyrazol indanyl carboxamides
EP2662370A1 (en) 2012-05-09 2013-11-13 Bayer CropScience AG 5-Halogenopyrazole benzofuranyl carboxamides
EP2662363A1 (en) 2012-05-09 2013-11-13 Bayer CropScience AG 5-Halogenopyrazole biphenylcarboxamides
EP2662362A1 (en) 2012-05-09 2013-11-13 Bayer CropScience AG Pyrazole indanyl carboxamides
EP2662364A1 (en) 2012-05-09 2013-11-13 Bayer CropScience AG Pyrazole tetrahydronaphthyl carboxamides
EP2662360A1 (en) 2012-05-09 2013-11-13 Bayer CropScience AG 5-Halogenopyrazole indanyl carboxamides
WO2013167544A1 (en) 2012-05-09 2013-11-14 Bayer Cropscience Ag 5-halogenopyrazole indanyl carboxamides
AR091104A1 (en) 2012-05-22 2015-01-14 Bayer Cropscience Ag COMBINATIONS OF ACTIVE COMPOUNDS THAT INCLUDE A LIPO-CHYTOOLIGOSACARIDE DERIVATIVE AND A NEMATICIDE, INSECTICIDE OR FUNGICIDE COMPOUND
CN104619843B (en) 2012-05-24 2020-03-06 A.B.种子有限公司 Compositions and methods for silencing gene expression
CA2890235A1 (en) 2012-06-22 2013-12-27 Syngenta Participations Ag Biological control of coleopteran pests
AR091611A1 (en) * 2012-06-28 2015-02-18 Nemgenix Pty Ltd OBJECT GENES FOR THE CONTROL OF NUMBER PARASITES OF PLANTS AND THEIR USE
EP2908620A4 (en) 2012-10-18 2016-07-27 Monsanto Technology Llc Methods and compositions for plant pest control
US9801374B2 (en) 2012-10-19 2017-10-31 Bayer Cropscience Ag Active compound combinations comprising carboxamide derivatives
PL2908642T3 (en) 2012-10-19 2022-06-13 Bayer Cropscience Ag Method for enhancing tolerance to abiotic stress in plants by using carboxamide or thiocarboxamide derivatives
US9668480B2 (en) 2012-10-19 2017-06-06 Bayer Cropscience Ag Method for treating plants against fungi resistant to fungicides using carboxamide or thiocarboxamide derivatives
CN105357967B (en) 2012-10-19 2019-02-19 拜尔农科股份公司 Promote the method for plant growth using carboxamide derivative
EP2735231A1 (en) 2012-11-23 2014-05-28 Bayer CropScience AG Active compound combinations
UA117820C2 (en) 2012-11-30 2018-10-10 Байєр Кропсайєнс Акцієнгезелльшафт Binary fungicidal or pesticidal mixture
BR112015012473A2 (en) 2012-11-30 2017-07-11 Bayer Cropscience Ag pesticide and fungicide binary mixtures
WO2014083088A2 (en) 2012-11-30 2014-06-05 Bayer Cropscience Ag Binary fungicidal mixtures
WO2014082950A1 (en) 2012-11-30 2014-06-05 Bayer Cropscience Ag Ternary fungicidal mixtures
BR112015012519A2 (en) 2012-11-30 2017-07-11 Bayer Cropscience Ag ternary mixtures fungicides and pesticides
WO2014090765A1 (en) 2012-12-12 2014-06-19 Bayer Cropscience Ag Use of 1-[2-fluoro-4-methyl-5-(2,2,2-trifluoroethylsulfinyl)phenyl]-5-amino-3-trifluoromethyl)-1 h-1,2,4 tfia zole for controlling nematodes in nematode-resistant crops
AR093996A1 (en) 2012-12-18 2015-07-01 Bayer Cropscience Ag BACTERICIDAL COMBINATIONS AND BINARY FUNGICIDES
WO2014095677A1 (en) 2012-12-19 2014-06-26 Bayer Cropscience Ag Difluoromethyl-nicotinic- tetrahydronaphtyl carboxamides
US9688983B2 (en) * 2012-12-20 2017-06-27 Dow Agrosciences Llc Nucleic acid molecules that confer resistance to coleopteran pests
CA2896762A1 (en) 2013-01-01 2014-07-10 A.B. Seeds Ltd. Methods of introducing dsrna to plant seeds for modulating gene expression
US10683505B2 (en) 2013-01-01 2020-06-16 Monsanto Technology Llc Methods of introducing dsRNA to plant seeds for modulating gene expression
CN103053480B (en) * 2013-01-25 2014-04-16 中国农业科学院柑桔研究所 Method for RNA (ribonucleic acid) interference of panonychus citri mites
US10000767B2 (en) 2013-01-28 2018-06-19 Monsanto Technology Llc Methods and compositions for plant pest control
MX2015012334A (en) 2013-03-13 2016-02-05 Monsanto Technology Llc Methods and compositions for weed control.
WO2014164761A1 (en) 2013-03-13 2014-10-09 Monsanto Technology Llc Methods and compositions for weed control
AR095275A1 (en) * 2013-03-13 2015-09-30 E I Dupont De Nemours & Company COMPOSITIONS AND METHODS FOR INSECTICIDE CONTROL OF BUGS
US20140283211A1 (en) 2013-03-14 2014-09-18 Monsanto Technology Llc Methods and Compositions for Plant Pest Control
US9920316B2 (en) 2013-03-14 2018-03-20 Pioneer Hi-Bred International, Inc. Compositions and methods to control insect pests
US10568328B2 (en) 2013-03-15 2020-02-25 Monsanto Technology Llc Methods and compositions for weed control
CA2908403A1 (en) 2013-04-02 2014-10-09 Bayer Cropscience Nv Targeted genome engineering in eukaryotes
US9550752B2 (en) 2013-04-12 2017-01-24 Bayer Cropscience Aktiengesellschaft Triazolinthione derivatives
MX2015014365A (en) 2013-04-12 2015-12-07 Bayer Cropscience Ag Novel triazole derivatives.
CA2909725A1 (en) 2013-04-19 2014-10-23 Bayer Cropscience Aktiengesellschaft Method for improved utilization of the production potential of transgenic plants
US9554573B2 (en) 2013-04-19 2017-01-31 Bayer Cropscience Aktiengesellschaft Binary insecticidal or pesticidal mixture
TW201507722A (en) 2013-04-30 2015-03-01 Bayer Cropscience Ag N-(2-halogen-2-phenethyl)carboxamides as nematicides and endoparasiticides
WO2014177514A1 (en) 2013-04-30 2014-11-06 Bayer Cropscience Ag Nematicidal n-substituted phenethylcarboxamides
US9365863B2 (en) 2013-05-08 2016-06-14 Monsanto Technology Llc Compositions and methods for deploying a transgenic refuge seed blend
CN105636939B (en) 2013-06-26 2018-08-31 拜耳作物科学股份公司 N- naphthenic base-N- [(two ring group phenyl) methylene]-(thio) carboxamides derivatives
US9850496B2 (en) * 2013-07-19 2017-12-26 Monsanto Technology Llc Compositions and methods for controlling Leptinotarsa
CA2918387C (en) 2013-07-19 2021-11-02 Monsanto Technology Llc Compositions and methods for controlling leptinotarsa
MX2016003405A (en) 2013-09-24 2016-10-28 Bayer Cropscience Nv Hetero-transglycosylase and uses thereof.
NZ719544A (en) 2013-11-04 2022-09-30 Beeologics Inc Compositions and methods for controlling arthropod parasite and pest infestations
CN103667173B (en) * 2013-11-27 2015-08-19 中国计量学院 A kind of primary culture method of brown paddy plant hopper cell
AU2014359208B2 (en) 2013-12-05 2018-10-04 Bayer Cropscience Aktiengesellschaft N-cycloalkyl-N-{[2-(1-substitutedcycloalkyl)phenyl]methylene}-(thio)carboxamide derivatives
CN105873907B (en) 2013-12-05 2019-03-12 拜耳作物科学股份公司 N- naphthenic base-N- { [2- (naphthenic base that 1- replaces) phenyl] methylene }-(thio) carboxamides derivatives
UA119253C2 (en) 2013-12-10 2019-05-27 Біолоджикс, Інк. Compositions and methods for virus control in varroa mite and bees
BR102013032649A2 (en) * 2013-12-18 2016-02-10 Embrapa Empresa Brasileira De Pesquisa Agropecuária method and compositions for insect - pest control in plants by silencing quintin synthase family and vitellogenin genes as well as alternatively by expression of a cry toxin gene
BR102014031844A2 (en) 2013-12-20 2015-10-06 Dow Agrosciences Llc RAS and related nucleic acid molecules that confer resistance to Coleoptera and Hemiptera pests
AR099092A1 (en) 2014-01-15 2016-06-29 Monsanto Technology Llc METHODS AND COMPOSITIONS FOR WEED CONTROL USING EPSPS POLYUCLEOTIDES
EP3719129A1 (en) 2014-03-12 2020-10-07 The University of Sydney Rna production in higher plants
US11091770B2 (en) 2014-04-01 2021-08-17 Monsanto Technology Llc Compositions and methods for controlling insect pests
US10450583B2 (en) * 2014-04-23 2019-10-22 The Regents Of The University Of California Compositions and methods for controlling pests
AU2015280252A1 (en) 2014-06-23 2017-01-12 Monsanto Technology Llc Compositions and methods for regulating gene expression via RNA interference
EP3161138A4 (en) 2014-06-25 2017-12-06 Monsanto Technology LLC Methods and compositions for delivering nucleic acids to plant cells and regulating gene expression
KR20170066403A (en) * 2014-10-13 2017-06-14 다우 아그로사이언시즈 엘엘씨 Copi coatomer alpha subunit nucleic acid molecules that confer resistance to coleopteran and hemipteran pests
MX2017004451A (en) * 2014-10-13 2017-07-10 Dow Agrosciences Llc Copi coatomer gamma subunit nucleic acid molecules that confer resistance to coleopteran and hemipteran pests.
JP2017530712A (en) * 2014-10-13 2017-10-19 ダウ アグロサイエンシィズ エルエルシー COPI coatmer delta subunit nucleic acid molecules that confer resistance to Coleoptera and Hemiptera pests
BR112017007168A2 (en) * 2014-10-13 2017-12-19 Dow Agrosciences Llc cop 1 coatomer beta subunit nucleic acid molecules that confer resistance to the Coleoptera and Hemiptera pests
WO2016069564A1 (en) 2014-10-27 2016-05-06 Newleaf Symbiotics, Inc. Methods and compositions for controlling corn rootworm
AR103043A1 (en) * 2014-12-16 2017-04-12 Dow Agrosciences Llc SUPPRESSION OF GEN KRUPPEL PARENTAL ARNI FOR THE CONTROL OF HEMIPTER PESTS
AR103041A1 (en) 2014-12-16 2017-04-12 Dow Agrosciences Llc SUPPRESSION OF GEN HUNCHBACK PARENTAL ARNI FOR THE CONTROL OF HEMIPTER PESTS
TW201629223A (en) * 2014-12-16 2016-08-16 陶氏農業科學公司 Parental RNAi suppression of KRUPEL GENE to control coleopteran pests
TW201629224A (en) * 2014-12-16 2016-08-16 陶氏農業科學公司 Parental RNAi suppression of chromatin remodeling genes to control coleopteran pests
TW201629220A (en) * 2014-12-16 2016-08-16 陶氏農業科學公司 Parental RNAi suppression of hunchback gene to control coleopteran pests
AR103038A1 (en) * 2014-12-16 2017-04-12 Dow Agrosciences Llc SUPPRESSION OF PARENTAL iRNA OF CHROMATIN REMODELING GENES TO CONTROL HEMIPTER PESTS
US20160194658A1 (en) 2014-12-22 2016-07-07 Dow Agrosciences Llc Nucampholin nucleic acid molecules to control coleopteran insect pests
CN108064288B (en) * 2015-01-22 2021-11-26 孟山都技术公司 Compositions and methods for controlling phyllometaca
CN104610440B (en) * 2015-02-15 2017-11-28 中国农业科学院蔬菜花卉研究所 Applications of the ABC transporter gene ABCH1 and its specific dsRNA in diamondback moth preventing and treating and Bt resistance managements
WO2016138106A1 (en) * 2015-02-27 2016-09-01 Pioneer Hi Bred International Inc Compositions and methods to control insect pests
CA2977026A1 (en) 2015-03-11 2016-09-15 E.I. Du Pont De Nemours And Company Insecticidal combinations of pip-72 and methods of use
US20160264991A1 (en) 2015-03-13 2016-09-15 Dow Agrosciences Llc Rna polymerase i1 nucleic acid molecules to control insect pests
BR102016005432A2 (en) * 2015-03-13 2016-09-13 Dow Agrosciences Llc RNA Polymerase II33 Nucleic Acid Molecules to Control Insect Pests
BR112017022000A2 (en) 2015-04-13 2018-07-03 Bayer Cropscience Ag n-cycloalkyl-n- (biheterocyclylethylene) - (thio) carboxamide derivatives.
BR102016012010A2 (en) 2015-05-29 2020-03-24 Dow Agrosciences Llc NUCLEIC ACID, RIBONUCLEIC ACID (RNA) AND DOUBLE-FILAMENT RIBONUCLEIC ACID (DSRNA) MOLECULE, CELL, PLANT AND SEED USES, PRIMARY PRODUCT, AS WELL AS METHODS TO CONTROL A POPULATION OF HOLIDAYS, OR HOSPITALS, OR HOSPITALS, OR HOSPITALS, OR HOSPITALS THE INCOME OF A CULTURE, AND TO PRODUCE A TRANSGENIC VEGETABLE CELL AND A TRANSGENIC PLANT
CN107750125A (en) 2015-06-02 2018-03-02 孟山都技术有限公司 For by the composition and method in delivery of polynucleotides to plant
WO2016196782A1 (en) 2015-06-03 2016-12-08 Monsanto Technology Llc Methods and compositions for introducing nucleic acids into plants
WO2016205445A1 (en) 2015-06-16 2016-12-22 Pioneer Hi-Bred International, Inc. Compositions and methods to control insect pests
CN105123298B (en) * 2015-07-08 2017-07-11 吉林省农业科学院 A kind of indoor bioassay method of non-selective identification Soybean Resistance eating-core bean worm
US20170016023A1 (en) * 2015-07-16 2017-01-19 Dow Agrosciences Llc Snap25 nucleic acid molecules to control insect pests
US20170016024A1 (en) * 2015-07-16 2017-01-19 Dow Agrosciences Llc Prp8 nucleic acid molecules to control insect pests
EP3943602A1 (en) * 2015-08-06 2022-01-26 Pioneer Hi-Bred International, Inc. Plant derived insecticidal proteins and methods for their use
WO2017053662A1 (en) * 2015-09-25 2017-03-30 Dow Agrosciences Llc Shibire/dynamin nucleic acid molecules to control coleopteran and hemipteran pests
EP3922100A1 (en) 2015-10-12 2021-12-15 Pioneer Hi-Bred International, Inc. Biologicals and their use in plants
CN108431207A (en) 2015-10-12 2018-08-21 美国陶氏益农公司 Assign the WUPA nucleic acid molecules to the resistance of coleoptera and Hemipteran pest
CA3003429A1 (en) * 2015-10-28 2017-05-04 Dow Agrosciences Llc Nucleic acid molecules that confer resistance to coleopteran pests
US10329581B2 (en) 2015-12-18 2019-06-25 Dow Agrosciences Llc Ribosomal protein L40 (RPL40) nucleic acid molecules that confer resistance to coleopteran and hemipteran pests
WO2017112538A2 (en) 2015-12-22 2017-06-29 AgBiome, Inc. Pesticidal genes and methods of use
CN109312344A (en) * 2016-01-26 2019-02-05 孟山都技术公司 For controlling the composition and method of insect pest
CA3013199A1 (en) * 2016-02-03 2017-08-10 Dow Agrosciences Llc Rpb7 nucleic acid molecules to control insect pests
EP3411487A4 (en) * 2016-02-03 2019-07-17 Dow Agrosciences LLC Gawky (gw) nucleic acid molecules to control insect pests
AU2017247937A1 (en) 2016-04-06 2018-10-04 Bayer Cropscience Aktiengesellschaft Combination of nuclear polyhedrosis virus and diamides
EP3960863A1 (en) 2016-05-04 2022-03-02 Pioneer Hi-Bred International, Inc. Insecticidal proteins and methods for their use
CA3023483C (en) 2016-05-16 2024-01-16 Danisco Us Inc. Entomopathogenic products, metarhizium anisopliae or metarhizium robertsii
CA3022858A1 (en) 2016-06-16 2017-12-21 Pioneer Hi-Bred International, Inc. Compositions and methods to control insect pests
EP4083215A1 (en) 2016-06-24 2022-11-02 Pioneer Hi-Bred International, Inc. Plant regulatory elements and methods of use thereof
MX2018015906A (en) 2016-07-01 2019-04-04 Pioneer Hi Bred Int Insecticidal proteins from plants and methods for their use.
US20210292778A1 (en) 2016-07-12 2021-09-23 Pioneer Hi-Bred International, Inc. Compositions and methods to control insect pests
CA3032030A1 (en) 2016-07-29 2018-02-01 Bayer Cropscience Aktiengesellschaft Active compound combinations and methods to protect the propagation material of plants
AR109207A1 (en) * 2016-08-05 2018-11-07 Syngenta Participations Ag PATHOPE CONTROL OF COLEOPTERS USING RNA MOLECULES
AR109206A1 (en) 2016-08-05 2018-11-07 Syngenta Participations Ag PATHOPE CONTROL OF COLEOPTERS USING RNA MOLECULES
BR112019005668A2 (en) 2016-09-22 2019-06-04 Bayer Ag new triazole derivatives
US20190281828A1 (en) 2016-09-22 2019-09-19 Bayer Cropscience Aktiengesellschaft Novel triazole derivatives
US20190225974A1 (en) 2016-09-23 2019-07-25 BASF Agricultural Solutions Seed US LLC Targeted genome optimization in plants
EP3522719A1 (en) * 2016-10-05 2019-08-14 Syngenta Participations AG Methods of preserving the biological activity of ribonucleic acids
KR20190085514A (en) 2016-10-21 2019-07-18 베스타론 코포레이션 Cracking peptides and insect and nematode proteins comprising them
EP3535285B1 (en) 2016-11-01 2022-04-06 Pioneer Hi-Bred International, Inc. Insecticidal proteins and methods for their use
CN110088123B (en) 2016-12-14 2023-10-20 先锋国际良种公司 Insecticidal proteins and methods of use thereof
US11213028B2 (en) 2016-12-22 2022-01-04 Pioneer Hi-Bred International, Inc. Insecticidal proteins and methods for their use
EP3342780A1 (en) 2016-12-30 2018-07-04 Dow AgroSciences LLC Pre-mrna processing factor 8 (prp8) nucleic acid molecules to control insect pests
WO2018140214A1 (en) 2017-01-24 2018-08-02 Pioneer Hi-Bred International, Inc. Nematicidal protein from pseudomonas
MX2019009371A (en) 2017-02-08 2019-09-23 Pionner Hi Bred Int Inc Insecticidal combinations of plant derived insecticidal proteins and methods for their use.
CA3061721A1 (en) * 2017-05-01 2018-11-08 Donald Danforth Plant Science Center Rnai approach for crop pest protection
MX2019013321A (en) 2017-05-11 2020-02-10 Pioneer Hi Bred Int Insecticidal proteins and methods for their use.
US20200165626A1 (en) 2017-10-13 2020-05-28 Pioneer Hi-Bred International, Inc. Virus-induced gene silencing technology for insect control in maize
AR113761A1 (en) 2017-10-18 2020-06-10 Syngenta Participations Ag PEST CONTROL OF HEMIPTERS USING RNA MOLECULES
GB201718701D0 (en) * 2017-11-13 2017-12-27 Syngenta Participations Ag Improvements in or relating to gene silencing
WO2019139616A1 (en) 2018-01-12 2019-07-18 The Texas A&M University System Increasing plant bioproduct yield
EP3740070A1 (en) 2018-01-18 2020-11-25 Pioneer Hi-Bred International Inc. Alginate encapsulation of fungal microsclerotia
WO2019169150A1 (en) 2018-03-02 2019-09-06 Pioneer Hi-Bred International, Inc. Plant health assay
CN108707603B (en) * 2018-04-13 2021-07-20 中山大学 ESCRT-III core subunit Snf7 double-stranded RNA and preparation method and application thereof
US11702668B2 (en) 2018-05-22 2023-07-18 Pioneer Hi-Bred International, Inc. Plant regulatory elements and methods of use thereof
CN110551718B (en) * 2018-05-31 2021-07-30 北京大北农生物技术有限公司 Nucleotide sequences and methods for controlling insect infestation
BR112020024615A2 (en) 2018-06-04 2021-03-02 Bayer Aktiengesellschaft herbicidal bicyclic benzoylpyrazoles
CN110669762B (en) * 2018-06-15 2022-11-01 北京大北农生物技术有限公司 Nucleotide sequences and methods for controlling insect infestation
CN110669761B (en) * 2018-06-15 2022-11-04 北京大北农生物技术有限公司 Nucleotide sequences and methods for controlling insect infestation
WO2020016892A1 (en) 2018-07-18 2020-01-23 Plantarcbio Ltd. Compositions and methods for mitigating pest infestation with rhynchophorus ferrugineus
MX2021002290A (en) 2018-08-29 2021-04-28 Pioneer Hi Bred Int Insecticidal proteins and methods for their use.
EP3893647A1 (en) 2018-12-14 2021-10-20 Pioneer Hi-Bred International, Inc. Biologicals and their use in plants
GB201903521D0 (en) 2019-03-14 2019-05-01 Tropic Biosciences Uk Ltd No title
CN109805029A (en) * 2019-03-20 2019-05-28 新疆农业科学院植物保护研究所 Application and product of the dsRNA in colorado potato bug prevents and treats
CN110669768B (en) * 2019-08-05 2021-07-20 华南农业大学 Method for preventing and controlling harmonia axyridis
CN110592117B (en) * 2019-08-05 2021-07-20 华南农业大学 High-lethal gene vATPase B and ladybug-proof application thereof
CN110616171B (en) * 2019-11-20 2021-01-19 山东佐田氏生物科技有限公司 Saline-alkali-resistant Pacific bacillus and viable bacteria preparation and application thereof
TW202142114A (en) 2020-02-04 2021-11-16 美商陶氏農業科學公司 Compositions having pesticidal utility and processes related thereto
US20230235352A1 (en) 2020-07-14 2023-07-27 Pioneer Hi-Bred International, Inc. Insecticidal proteins and methods for their use
CN116096903A (en) 2020-08-10 2023-05-09 先锋国际良种公司 Plant regulating element and method of use thereof
CN112410345B (en) * 2020-11-06 2023-01-24 华南农业大学 Eggplant dioctadecylate ladybug FTZ-F1 gene and application thereof in preventing and controlling eggplant twenty-eight-star ladybug
WO2022225915A1 (en) * 2021-04-19 2022-10-27 The Regents Of The University Of California Inhibitory rna for the control of phytopathogens
CN113943750B (en) * 2021-10-16 2024-04-30 温州医科大学 Construction method and application of caenorhabditis elegans transgenic plasmid and transgenic caenorhabditis elegans
CN114717328B (en) * 2022-03-10 2022-12-27 广东省农业科学院植物保护研究所 Method for detecting feeding habits of oryzophilus davidianus in intestinal tracts of oryzophilus davidianus based on SCAR-PCR technology
TW202345696A (en) 2022-05-18 2023-12-01 美商科迪華農業科技有限責任公司 Compositions having pesticidal utility and processes related thereto
CN114752599B (en) * 2022-06-14 2022-10-04 中国农业科学院生物技术研究所 Verticillium dahliae VdNRPS3 gene antipathogen target gene fragment, interference vector and application thereof
US20240011044A1 (en) 2022-07-05 2024-01-11 University Of Freiburg Plant regulatory elements and uses thereof
WO2024023578A1 (en) 2022-07-28 2024-02-01 Institut Pasteur Hsc70-4 in host-induced and spray-induced gene silencing
CN116064741A (en) * 2022-08-22 2023-05-05 山东九鑫日用化工有限公司 Application of guide RNA probe for detecting Demodex mites, kit and application thereof
CN116250548A (en) * 2022-08-30 2023-06-13 华南师范大学 Application of throat-inhibiting side body neuropeptides in preventing and treating periplaneta americana
WO2024052856A1 (en) 2022-09-09 2024-03-14 Friedrich Alexander Universität Erlangen-Nürnberg Plant regulatory elements and uses thereof

Family Cites Families (137)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US643136A (en) 1899-04-17 1900-02-13 Robert Lee Horsley Water-reservoir for stoves.
US3937813A (en) 1974-02-20 1976-02-10 Abbott Laboratories Insecticidal compositions comprising mixtures of bacillus thuringiensis and chlordimeform
US4272417A (en) 1979-05-22 1981-06-09 Cargill, Incorporated Stable protective seed coating
US4245432A (en) 1979-07-25 1981-01-20 Eastman Kodak Company Seed coatings
US4339456A (en) 1980-01-14 1982-07-13 Gustafson, Inc. Peanut seed treating
US4383391A (en) 1981-09-21 1983-05-17 Celanese Corporation Seed coating composition based on carbamate pesticide and non-alkaline amorphous carbon
US4634587A (en) 1982-07-09 1987-01-06 Key Pharmaceuticals, Inc. Sustained release quinidine dosage form
US4693977A (en) 1982-08-23 1987-09-15 Queen's University At Kingston Enzyme immobilization for producing cephalosporin antibiotics
US4536475A (en) 1982-10-05 1985-08-20 Phytogen Plant vector
US4876197A (en) 1983-02-22 1989-10-24 Chiron Corporation Eukaryotic regulatable transcription
NL8300698A (en) 1983-02-24 1984-09-17 Univ Leiden METHOD FOR BUILDING FOREIGN DNA INTO THE NAME OF DIABIC LOBAL PLANTS; AGROBACTERIUM TUMEFACIENS BACTERIA AND METHOD FOR PRODUCTION THEREOF; PLANTS AND PLANT CELLS WITH CHANGED GENETIC PROPERTIES; PROCESS FOR PREPARING CHEMICAL AND / OR PHARMACEUTICAL PRODUCTS.
US4465017A (en) 1983-03-09 1984-08-14 Simmons John J Seed coating machine
NZ207765A (en) 1983-04-15 1987-03-06 Lubrizol Genetics Inc Plant expression of transferred dna(t-dna)from plasmids associated with agrobacterium sp
JPS59205983A (en) 1983-04-28 1984-11-21 ジエネツクス・コ−ポレイシヨン Development of different kind gene by procaryotic microorganism
US4735015A (en) 1983-11-25 1988-04-05 Basf Corporation Seed protective coating
US4880734A (en) 1984-05-11 1989-11-14 Chiron Corporation Eukaryotic regulatable transcription
US4886937A (en) 1985-05-20 1989-12-12 North Carolina State University Method for transforming pine
CA1293460C (en) 1985-10-07 1991-12-24 Brian Lee Sauer Site-specific recombination of dna in yeast
US5453566A (en) 1986-03-28 1995-09-26 Calgene, Inc. Antisense regulation of gene expression in plant/cells
US5107065A (en) 1986-03-28 1992-04-21 Calgene, Inc. Anti-sense regulation of gene expression in plant cells
DE3616010A1 (en) 1986-05-13 1987-11-19 Bayer Ag METHOD FOR SEEDING AND / OR INCRUSTING SEEDS
EP0284044B1 (en) 1987-03-23 1994-03-23 Zymogenetics, Inc. High level expression in yeast
TR27832A (en) 1987-04-29 1995-08-31 Monsanto Co Plants resistant to harmful volatile damage.
FR2618041B1 (en) 1987-07-16 1991-06-21 Ceres Ets DEVICE FOR TREATING SEEDS
US4948734A (en) 1987-08-12 1990-08-14 Mycogen Corporation Novel isolates of bacillus thuringiensis having activity against nematodes
US5789214A (en) 1988-03-08 1998-08-04 Novartis Finance Corporation Method of inducing gene transcription in a plant
US5614395A (en) 1988-03-08 1997-03-25 Ciba-Geigy Corporation Chemically regulatable and anti-pathogenic DNA sequences and uses thereof
JPH0646887B2 (en) 1988-11-08 1994-06-22 矢崎総業株式会社 Seed gel coating equipment
US5300127A (en) 1989-01-06 1994-04-05 Agricultural Genetics Company Limited Seed coatings
BR9007159A (en) 1989-02-24 1991-12-10 Monsanto Co SYNTHETIC GENES OF PLANTS AND PROCESS FOR THE PREPARATION OF THE SAME
US5231020A (en) 1989-03-30 1993-07-27 Dna Plant Technology Corporation Genetic engineering of novel plant phenotypes
EP0400246A1 (en) 1989-05-31 1990-12-05 Plant Genetic Systems, N.V. Prevention of Bt resistance development
US5302523A (en) 1989-06-21 1994-04-12 Zeneca Limited Transformation of plant cells
US5501967A (en) 1989-07-26 1996-03-26 Mogen International, N.V./Rijksuniversiteit Te Leiden Process for the site-directed integration of DNA into the genome of plants
US5550318A (en) 1990-04-17 1996-08-27 Dekalb Genetics Corporation Methods and compositions for the production of stably transformed, fertile monocot plants and cells thereof
HU220773B1 (en) 1990-01-22 2002-05-28 Dekalb Genetics Corporation Process for producing productive transgenic maize plants
US5484956A (en) 1990-01-22 1996-01-16 Dekalb Genetics Corporation Fertile transgenic Zea mays plant comprising heterologous DNA encoding Bacillus thuringiensis endotoxin
US5837848A (en) 1990-03-16 1998-11-17 Zeneca Limited Root-specific promoter
US5639949A (en) 1990-08-20 1997-06-17 Ciba-Geigy Corporation Genes for the synthesis of antipathogenic substances
US5633435A (en) 1990-08-31 1997-05-27 Monsanto Company Glyphosate-tolerant 5-enolpyruvylshikimate-3-phosphate synthases
EP0558676B1 (en) 1990-11-23 2000-04-19 Plant Genetic Systems, N.V. Process for transforming monocotyledonous plants
US5384253A (en) 1990-12-28 1995-01-24 Dekalb Genetics Corporation Genetic transformation of maize cells by electroporation of cells pretreated with pectin degrading enzymes
DK0595894T3 (en) 1991-07-19 1996-05-13 Uniroyal Chem Co Inc Seed film compositions
SK44894A3 (en) 1991-10-18 1995-04-12 Monsanto Co Trisubstituted aromatic compounds, method of their preparation and fungicidal agents
US5593874A (en) 1992-03-19 1997-01-14 Monsanto Company Enhanced expression in plants
CA2094658A1 (en) 1992-04-23 1993-10-24 Martin Sumner-Smith Intracellular delivery of biochemical agents
NZ255028A (en) 1992-07-02 1997-03-24 Hybridon Inc Antisense oligonucleotides resistant to nucleolytic degradation
WO1994000977A1 (en) 1992-07-07 1994-01-20 Japan Tobacco Inc. Method of transforming monocotyledon
EP0652965A1 (en) 1992-07-27 1995-05-17 Pioneer Hi-Bred International, Inc. An improved method of agrobacterium-mediated transformation of cultured soybean cells
FI93687C (en) 1992-07-29 1995-05-26 Novasso Oy Method for coating seeds
US5661103A (en) 1992-11-05 1997-08-26 Donlar Corporation Seed treatment composition and method
US5527695A (en) 1993-01-29 1996-06-18 Purdue Research Foundation Controlled modification of eukaryotic genomes
US6118047A (en) 1993-08-25 2000-09-12 Dekalb Genetic Corporation Anthranilate synthase gene and method of use thereof for conferring tryptophan overproduction
US5629469A (en) 1994-03-10 1997-05-13 Sandoz Ltd. Thiol protease inhibitor
US5882713A (en) 1994-04-26 1999-03-16 The United States Of America As Represented By The Secretary Of Agriculture Non-separable compositions of starch and water-immiscible organic materials
US5716837A (en) 1995-02-10 1998-02-10 Monsanto Company Expression of sucrose phosphorylase in plants
US5580544A (en) 1995-03-29 1996-12-03 Uniroyal Chemical Company, Inc. Paste formulation useful for seed treatment and foliar treatment of plants
JP3125847B2 (en) 1995-06-15 2001-01-22 矢崎総業株式会社 Method for easily disintegrating gel layer of gel-coated seed
US5622003A (en) 1995-07-11 1997-04-22 Isp Investments Inc. Seed coating containing Mn (NO3)2 ·6H2 O
US5693512A (en) 1996-03-01 1997-12-02 The Ohio State Research Foundation Method for transforming plant tissue by sonication
US5849320A (en) 1996-06-13 1998-12-15 Novartis Corporation Insecticidal seed coating
US5876739A (en) 1996-06-13 1999-03-02 Novartis Ag Insecticidal seed coating
US5939356A (en) 1996-06-21 1999-08-17 Southwest Research Institute Controlled release coated agricultural products
DE19631919C2 (en) 1996-08-07 1998-07-16 Deutsches Krebsforsch Anti-sense RNA with secondary structure
JP3185133B2 (en) 1997-02-13 2001-07-09 タキイ種苗株式会社 Granulated coated seed and method for producing the same
GB9710475D0 (en) 1997-05-21 1997-07-16 Zeneca Ltd Gene silencing
RU2198221C2 (en) 1997-07-28 2003-02-10 Медикал Биосистемз Лтд. Method of polynucleotide sequencing and device for its realization
US5891246A (en) 1997-08-15 1999-04-06 Gustafson, Inc. Seed coating apparatus
US20090077685A1 (en) 1998-06-16 2009-03-19 Buehler Robert E Nucleic acid molecules and other molecules associated with plants
US6037160A (en) 1997-12-12 2000-03-14 Heska Corporation Flea epoxide hydrolase nucleic acid molecules, proteins and uses thereof
US6506559B1 (en) 1997-12-23 2003-01-14 Carnegie Institute Of Washington Genetic inhibition by double-stranded RNA
AUPP135698A0 (en) 1998-01-15 1998-02-05 Commonwealth Scientific And Industrial Research Organisation Insectical modalities
KR20010042069A (en) 1998-03-20 2001-05-25 베니텍 오스트레일리아 리미티드 Control of gene expression
AUPP249298A0 (en) 1998-03-20 1998-04-23 Ag-Gene Australia Limited Synthetic genes and genetic constructs comprising same I
CN1302335A (en) 1998-03-23 2001-07-04 拉尔夫·施纳贝尔 Method for ballistic transformation of caenorhabditis elegant
WO1999053050A1 (en) 1998-04-08 1999-10-21 Commonwealth Scientific And Industrial Research Organisation Methods and means for obtaining modified phenotypes
GB9827152D0 (en) 1998-07-03 1999-02-03 Devgen Nv Characterisation of gene function using double stranded rna inhibition
CZ301915B6 (en) 1998-08-19 2010-07-28 Monsanto Technology Llc DNA recombinant molecule, transformed cell, plant and method of enhancing gene expression
US6506599B1 (en) 1999-10-15 2003-01-14 Tai-Wook Yoon Method for culturing langerhans islets and islet autotransplantation islet regeneration
US6489542B1 (en) 1998-11-04 2002-12-03 Monsanto Technology Llc Methods for transforming plants to express Cry2Ab δ-endotoxins targeted to the plastids
US6511824B1 (en) 1999-03-17 2003-01-28 Exelixis, Inc. Nucleic acids and polypeptides of invertebrate TWIK channels and methods of use
US6703491B1 (en) 1999-03-17 2004-03-09 Exelixis, Inc. Drosophila sequences
EP1169343B1 (en) 1999-04-09 2006-05-24 Heska Corporation Flea head, nerve cord, hindgut and malpighian tubule nucleic acid molecules, proteins and uses thereof
GB9908677D0 (en) 1999-04-15 1999-06-09 Devgen Nv Compound assay
GB9921009D0 (en) * 1999-09-07 1999-11-10 Neuropa Ltd Essential genes and assays relating thereto
GB9925459D0 (en) 1999-10-27 1999-12-29 Plant Bioscience Ltd Gene silencing
US6326193B1 (en) 1999-11-05 2001-12-04 Cambria Biosciences, Llc Insect control agent
AU2047001A (en) * 1999-11-24 2001-06-04 Dna Plant Technology Corporation Methods of inhibiting plant parasitic nematodes and insect pests by expression of nematode and insect specific double-stranded rna in plants
GB9930691D0 (en) 1999-12-24 2000-02-16 Devgen Nv Improvements relating to double-stranded RNA inhibition
RU2157644C1 (en) * 2000-01-21 2000-10-20 Авакян Юрий Арамович Food and feed product with elevated content of ballast substances and method of preparation thereof
AU2001247587A1 (en) 2000-03-20 2001-10-03 Arch Development Corporation Transgenic plants containing heat shock protein
WO2001071042A2 (en) * 2000-03-23 2001-09-27 Pe Corporation (Ny) Detection kits, such as nucleic acid arrays, for detecting the expression of 10,000 or more drosophila genes and uses thereof
US20040241651A1 (en) 2000-04-07 2004-12-02 Alexander Olek Detection of single nucleotide polymorphisms (snp's) and cytosine-methylations
US20110131679A2 (en) * 2000-04-19 2011-06-02 Thomas La Rosa Rice Nucleic Acid Molecules and Other Molecules Associated with Plants and Uses Thereof for Plant Improvement
GB0012233D0 (en) 2000-05-19 2000-07-12 Devgen Nv Vector constructs
US20020048814A1 (en) 2000-08-15 2002-04-25 Dna Plant Technology Corporation Methods of gene silencing using poly-dT sequences
US7109393B2 (en) 2000-08-15 2006-09-19 Mendel Biotechnology, Inc. Methods of gene silencing using inverted repeat sequences
US6812339B1 (en) 2000-09-08 2004-11-02 Applera Corporation Polymorphisms in known genes associated with human disease, methods of detection and uses thereof
US6551962B1 (en) 2000-10-06 2003-04-22 Monsanto Technology Llc Method for deploying a transgenic refuge
WO2002033405A1 (en) 2000-10-18 2002-04-25 Devgen Nv Methods for identifying pesticidal compounds
EP1210875A1 (en) 2000-12-04 2002-06-05 Aventis CropScience GmbH Modulating gene expression in insects by using double-stranded RNA (dsRNA)
WO2002077183A2 (en) * 2001-03-21 2002-10-03 Elitra Pharmaceuticals, Inc. Identification of essential genes in microorganisms
AUPR621501A0 (en) * 2001-07-06 2001-08-02 Commonwealth Scientific And Industrial Research Organisation Delivery of ds rna
US7612194B2 (en) 2001-07-24 2009-11-03 Monsanto Technology Llc Nucleic acid sequences from Diabrotica virgifera virgifera LeConte and uses thereof
JP2005512520A (en) 2001-10-10 2005-05-12 ヘスカ コーポレイション Flea head, nerve bundles, hindgut and malpighi tract nucleic acid molecules, proteins and their use
US20030150017A1 (en) 2001-11-07 2003-08-07 Mesa Jose Ramon Botella Method for facilitating pathogen resistance
US7314974B2 (en) * 2002-02-21 2008-01-01 Monsanto Technology, Llc Expression of microbial proteins in plants for production of plants with improved properties
US7576262B2 (en) 2002-03-14 2009-08-18 Commonwealth Scientific And Industrial Research Organization Modified gene-silencing RNA and uses thereof
AR039717A1 (en) 2002-06-21 2005-03-09 Monsanto Technology Llc INTRONES ARN CONSTRUCTIONS DOUBLE CHAIN AND USES OF THE SAME
UA87808C2 (en) 2002-07-29 2009-08-25 Монсанто Текнолоджи, Ллс Cereal crops pv-zmir13 (mon863) and compositions and methods for detection thereof
US7205454B2 (en) * 2002-07-31 2007-04-17 Bayer Bioscience N.V. Corn root preferential promoters and uses thereof
US20040053289A1 (en) 2002-09-09 2004-03-18 The Regents Of The University Of California Short interfering nucleic acid hybrids and methods thereof
JP4558711B2 (en) 2003-02-19 2010-10-06 コモンウェルス サイエンティフィック アンド インダストリアル リサーチ オーガニゼイション Efficient gene silencing in plants using short dsRNA sequences
CA2528162A1 (en) * 2003-06-04 2004-12-16 The Government Of The United States As Represented By The Secretary Of T He Department Of Health And Human Services, Centers For Disease Control Pni microarray and uses
IL157538A0 (en) 2003-08-21 2004-03-28 Bar Ilan Res & Dev Company Ltd Plant resistant to cytoplasm-feeding parasites
PL1687435T3 (en) * 2003-11-17 2012-02-29 Bayer Cropscience Nv Insect resistance using inhibition of gene expression
BRPI0416713B8 (en) 2003-12-23 2020-02-04 Bayer Sas methods of producing a plant or plant cell resistant to a phytopathogenic fungus, methods to inhibit or reduce the expression of a fungus gene and use of a construct
CA2562022C (en) * 2004-04-09 2016-01-26 Monsanto Technology Llc Compositions and methods for control of insect infestations in plants
WO2006070227A2 (en) 2004-10-04 2006-07-06 Devgen Nv Method for down-regulating gene expression in fungi
MX2007004686A (en) 2004-10-25 2007-06-14 Devgen Nv Multidomain rna molecules comprising at least one aptamer for delivering double stranded rna to pest organisms.
WO2006045591A2 (en) 2004-10-25 2006-05-04 Devgen N.V. Method and constructs for delivering double stranded rna to pest organisms
US20100170000A9 (en) 2004-10-25 2010-07-01 Devgen Nv Rna constructs
US8404927B2 (en) 2004-12-21 2013-03-26 Monsanto Technology Llc Double-stranded RNA stabilized in planta
US20060200878A1 (en) 2004-12-21 2006-09-07 Linda Lutfiyya Recombinant DNA constructs and methods for controlling gene expression
AR051895A1 (en) 2005-01-07 2007-02-14 Ard Of Higher Education On Beh METHOD FOR TRIGGING RNA INTERFERENCE
US8088976B2 (en) 2005-02-24 2012-01-03 Monsanto Technology Llc Methods for genetic control of plant pest infestation and compositions thereof
JP5832062B2 (en) 2005-05-31 2015-12-16 デフヘン・ナムローゼ・フェンノートシャップDEVGEN nv RNAi for insect and spider control
EP3508582B1 (en) 2005-09-16 2021-01-13 Monsanto Technology LLC Methods for genetic control of insect infestations in plants and compositions thereof
PL2270182T3 (en) 2005-09-16 2016-07-29 Devgen Nv DSRNA as insect control agent
AU2006329563B2 (en) 2005-09-16 2014-02-20 Devgen Nv dsRNA as insect control agent
CA2627795C (en) * 2006-01-12 2019-01-22 Devgen N.V. Dsrna as insect control agent
EP1971687A2 (en) * 2006-01-12 2008-09-24 Devgen NV Dsrna as insect control agent
WO2007095493A2 (en) 2006-02-10 2007-08-23 Applera Corporation Systems and methods for methylation prediction
US20070259785A1 (en) * 2006-02-13 2007-11-08 Monsanto Technology Llc SELECTING AND STABILIZING dsRNA CONSTRUCTS
US7999148B2 (en) 2006-02-16 2011-08-16 Texas A&M University System Cotton plant with seed-specific reduction in gossypol
CN101932708A (en) 2007-08-14 2010-12-29 联邦科学工业研究组织 Improved gene silencing methods
US9803473B2 (en) 2015-10-23 2017-10-31 Schlumberger Technology Corporation Downhole electromagnetic telemetry receiver

Cited By (29)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102439029A (en) * 2009-06-16 2012-05-02 陶氏益农公司 Dig-10 insecticidal cry toxins
CN107937405A (en) * 2010-12-30 2018-04-20 陶氏益农公司 Target RHO1 little Bloch spaces and assign the nucleic acid molecules to the resistance of coleoptera harmful organism
US9803204B2 (en) 2010-12-30 2017-10-31 Dow Agrosciences Llc Nucleic acid molecules that target the vacuolar atpase C subunit and confer resistance to coleopteran pests
CN105779450A (en) * 2010-12-30 2016-07-20 陶氏益农公司 Nucleic acid molecules that target the vacuolar ATPase C subunit and confer resistance to coleopteran pests
CN104542694B (en) * 2010-12-30 2017-06-20 陶氏益农公司 The nucleic acid molecules of targeting vacuole ATP enzyme C subunits and imparting to the resistance of coleoptera harmful organism
CN103403163B (en) * 2010-12-30 2016-10-26 陶氏益农公司 Targeting vacuole ATP enzyme C subunit also gives the nucleic acid molecules of resistance to coleoptera harmful organism
CN104542694A (en) * 2010-12-30 2015-04-29 陶氏益农公司 Nucleic acid molecules that target the vacuolar atpase c subunit and confer resistance to coleopteran pests
CN103403163A (en) * 2010-12-30 2013-11-20 陶氏益农公司 Nucleic acid molecules that target the vacuolar atpase c subunit and confer resistance to coleopteran pests
CN110452908A (en) * 2011-04-20 2019-11-15 德福根有限公司 The down-regulation of gene expression in insect pest
CN110229815B (en) * 2013-03-15 2024-02-20 孟山都技术有限公司 Compositions and methods for improving the production and delivery of RNA by efficient transcription termination
CN105164265B (en) * 2013-03-15 2019-05-10 孟山都技术有限公司 For generating and delivering the composition and method of RNA
US11647753B2 (en) 2013-03-15 2023-05-16 Monsanto Technology Llc Compositions and methods for the improved production and delivery of RNA by efficient transcription termination
CN110229815A (en) * 2013-03-15 2019-09-13 孟山都技术有限公司 The composition and method of generation and the delivering of RNA are improved by effective tanscription termination
CN105164265A (en) * 2013-03-15 2015-12-16 孟山都技术有限公司 Compositions and methods for the improved production and delivery of RNA by efficient transcription termination
CN106028838A (en) * 2013-12-20 2016-10-12 美国陶氏益农公司 Rnapii-140 nucleic acid molecules that confer resistance to coleopteran pests
CN106471123A (en) * 2014-05-06 2017-03-01 美国陶氏益农公司 Give the SEC23 nucleic acid molecules of coleoptera and Hemipteran pest resistance
CN106661590A (en) * 2014-05-07 2017-05-10 美国陶氏益农公司 DRE4 nucleic acid molecules that confer resistance to coleopteran pests
CN114009454A (en) * 2014-07-29 2022-02-08 孟山都技术公司 Compositions and methods for controlling insect pests
CN107532170A (en) * 2015-03-13 2018-01-02 美国陶氏益农公司 Control the nucleic acid molecules of rna plymerase ii 33 of insect pest
CN109790544A (en) * 2016-08-05 2019-05-21 先正达参股股份有限公司 Coleoptera harmful organism is controlled using RNA molecule
US11945843B2 (en) 2016-08-05 2024-04-02 Syngenta Participations Ag Control of coleopteran pests using RNA molecules
CN110669760A (en) * 2018-06-15 2020-01-10 北京大北农生物技术有限公司 Nucleotide sequences and methods for controlling insect infestation
CN110669760B (en) * 2018-06-15 2023-02-03 北京大北农生物技术有限公司 Nucleotide sequences and methods for controlling insect infestation
CN112831506A (en) * 2019-11-22 2021-05-25 深圳大学 Phyllotreta striolata cytochrome P450 gene and application thereof
CN112831506B (en) * 2019-11-22 2023-08-15 深圳大学 Yellow phyllotreta striolata cytochrome P450 gene and application thereof
CN112391390A (en) * 2020-11-19 2021-02-23 山西大学 Migratory locust clathrin heavy chain gene and synthesis and application of targeting dsRNA thereof
CN112662689A (en) * 2020-12-31 2021-04-16 山西大学 Migratory locust Rab11A gene and application of dsRNA thereof in migratory locust control
CN112662689B (en) * 2020-12-31 2022-07-19 山西大学 Migratory locust Rab11A gene and application of dsRNA thereof in migratory locust control
CN117343935A (en) * 2022-07-05 2024-01-05 宁波大学 Laodelphax striatellus lethal gene ubiquitin and application thereof in biological control

Also Published As

Publication number Publication date
US11312975B2 (en) 2022-04-26
CA2622687A1 (en) 2007-03-29
ATE548459T1 (en) 2012-03-15
EP1924696A2 (en) 2008-05-28
EP2330207A2 (en) 2011-06-08
HUE031692T2 (en) 2017-07-28
EP2426208B1 (en) 2016-11-09
US10538783B2 (en) 2020-01-21
EP2439279A1 (en) 2012-04-11
EP2431473B1 (en) 2016-11-09
US20070124836A1 (en) 2007-05-31
EP2439278A1 (en) 2012-04-11
CA2812343C (en) 2017-12-12
US20140013471A1 (en) 2014-01-09
EP2439278B1 (en) 2016-11-09
CA2812343A1 (en) 2007-03-29
CN102409050A (en) 2012-04-11
PL2431473T3 (en) 2017-05-31
RU2478710C2 (en) 2013-04-10
TWI390037B (en) 2013-03-21
AU2006292362B2 (en) 2013-02-14
CR9821A (en) 2008-08-01
ECSP088291A (en) 2008-04-28
EP3508582A1 (en) 2019-07-10
AP2013006736A0 (en) 2013-02-28
BRPI0616181A2 (en) 2009-06-16
EP2439279B1 (en) 2016-11-09
AU2006292362A1 (en) 2007-03-29
BRPI0616181B1 (en) 2024-03-05
EP1924696B1 (en) 2012-03-07
AP2008004416A0 (en) 2008-04-30
US20240117373A1 (en) 2024-04-11
EP2426208A1 (en) 2012-03-07
CA2622687C (en) 2013-07-02
AR055169A1 (en) 2007-08-08
US20170283828A1 (en) 2017-10-05
US20200172922A1 (en) 2020-06-04
CN101365795A (en) 2009-02-11
SV2009002845A (en) 2009-02-19
TW200804596A (en) 2008-01-16
US11939589B2 (en) 2024-03-26
SG166097A1 (en) 2010-11-29
UA98445C2 (en) 2012-05-25
CN101365796A (en) 2009-02-11
SI2431473T1 (en) 2017-03-31
PT2431473T (en) 2017-02-15
RU2008114846A (en) 2009-10-27
EP2330207A3 (en) 2012-04-11
US8759611B2 (en) 2014-06-24
ZA200803338B (en) 2009-01-28
EP3173486A1 (en) 2017-05-31
EP3508582B1 (en) 2021-01-13
UY29800A1 (en) 2007-04-30
US20170114362A1 (en) 2017-04-27
US7943819B2 (en) 2011-05-17
WO2007035650A3 (en) 2007-06-21
EP2431473A1 (en) 2012-03-21
US9695439B2 (en) 2017-07-04
US20220315945A1 (en) 2022-10-06
ES2614943T3 (en) 2017-06-02
WO2007035650A2 (en) 2007-03-29
US20120137387A1 (en) 2012-05-31
EP3173486B1 (en) 2019-02-13

Similar Documents

Publication Publication Date Title
AU2020273339B2 (en) Isolated polynucleotides and polypeptides and methods of using same for increasing plant yield, biomass, growth rate, vigor, oil content, abiotic stress tolerance of plants and nitrogen use efficiency
CN101310020A (en) Methods for genetic control of insect infestations in plantsand compositions thereof
AU2020202204B2 (en) Isolated polynucleotides and polypeptides, and methods of using same for increasing nitrogen use efficiency, yield, growth rate, vigor, biomass, oil content, and/or abiotic stress tolerance
CN113365493B (en) Tomato plants resistant to tomato brown-wrinkle virus
RU2723049C2 (en) Compositions and methods for controlling leptinotarsa
KR20140014374A (en) Multiple virus resistance in plants
KR20170005829A (en) Compositions for mosquito control and uses of same
EA030697B1 (en) Corn event 5307
JPH09322781A (en) Staphylococcus aureus polynucleotide and sequence
KR20170116034A (en) Gene determination genes and their use in sarcoma
KR102191537B1 (en) Selection and use of lactic acid bacteria preventing bone loss in mammals
RU2673715C2 (en) Haemophilus parasuis vaccine serovar type 4
AU2022202318A1 (en) Methods of increasing specific plants traits by over-expressing polypeptides in a plant
CN112243377A (en) Bacteriophage for treating and preventing bacterially-associated cancer
AU2016295176A1 (en) Genetic testing for predicting resistance of gram-negative proteus against antimicrobial agents
AU775084B2 (en) Flea head, nerve cord, hindgut and malpighian tubule nucleic acid molecules, proteins and uses thereof
KR102411381B1 (en) Novel bacillus subtilis strain with high productivity of surfactin and enzyme and use of the same
AU2008200749B2 (en) Promoters for regulation of plant gene expression
AU2017322445B2 (en) Use of MCM7 to obtain acetic acid-resistant yeast strains
KR101635497B1 (en) Novel Citrullus vulgaris reduced seed number and breeding method thereof
RU2817119C2 (en) Tomato plants resistant to tomato brown rugose fruit virus
RU2790834C1 (en) Antibacterial composition for sanitation of laboratory primates
KR102279181B1 (en) SNP Markers for Identification of Dagam, New Varieties of Glycyrrhiza uralensis and Use thereof
KR20190059562A (en) Novel Bacillus subtilis having proteolytic activity and uses thereof
KR101975797B1 (en) Nucleic acid molecules and primer sets related to restoration of male sterility in pepper and uses thereof

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C02 Deemed withdrawal of patent application after publication (patent law 2001)
WD01 Invention patent application deemed withdrawn after publication

Open date: 20081119